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ORGANIC SEMICONDUCTOR MATERIAL

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257 - Active solid-state devices (e.g., transistors, solid-state diodes)

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DocumentTitleDate
20110175078HYDROGEN PENETRATION BARRIER - Provided is a hydrogen penetration barrier for preventing hydrogen from being diffused and discharged through a barrier and preventing hydrogen embrittlement of a material due to diffusion of hydrogen ions into a material. In detail, the hydrogen penetration barrier prevents penetration of hydrogen ions by using a built-in potential of a semiconductor layer doped with a p-type impurity and a semiconductor layer doped with an n-type impurity and a potential applied by a reverse biased voltage and includes an absorption layer absorbing the hydrogen molecules to primarily prevent the penetration of the hydrogen molecules and uses the absorption layer made of the conductive material as an application electrode of the reverse biased voltage and ionizes the hydrogen absorbed to the absorption layer to secondarily prevent the penetration of the hydrogen molecules and prevent the hydrogen embrittlement.07-21-2011
20110175071ORGANIC ELECTRIC FIELD LIGHT-EMITTING ELEMENT - An organic electric field light-emitting element, containing an anode; a cathode; and an organic layer provided therebetween and containing a first organic layer, a second organic layer and a third organic layer laminated in this order from the anode side, wherein the first organic layer contains a first host material in an amount of 10 to 90 mass % and a first hole-transporting phosphorescent material in an amount of 10 to 90 mass %; the second organic layer contains a second host material in an amount of 65 to 96.9 mass %, a second hole-transporting phosphorescent material in an amount of 3 to 30 mass %, and an electron-trapping material in an amount of 0.1 to 5 mass %; the third organic layer contain a hole-blocking material whose T1 is higher than that of the second hole-transporting phosphorescent material by at least 0.1 eV, wherein the second host material, the second hole-transporting phosphorescent material, and the electron-trapping material satisfy the following relationship:07-21-2011
20110175069CROSS-LINKABLE POLYMER, CROSS-LINKED MATERIAL OF THE CROSS-LINKABLE POLYMER, ORGANIC LIGHT EMITTING DEVICE COMPRISING THE CROSS-LINKED MATERIAL AND METHOD OF PREPARING THE ORGANIC LIGHT EMITTING DEVICE - A cross-linkable polymer including 1,1′-binaphthyl repeating units linked through 6,6′-arylene groups, a cross-linked material comprising the cross-linkable polymer, an organic light emitting device including the cross-linked material, and a method of preparing the organic light emitting device are each disclosed.07-21-2011
20110175064Light emitting device and method of fabricating the same - A light emitting device may include a first electrode on a substrate, a first emission layer on the first electrode, a buffer layer on the first emission layer, a middle electrode on the buffer layer, a second emission layer on the middle electrode, and a second electrode on the second emission layer. The buffer layer may include a material selected from the group consisting of a metal oxide, a polyelectrolyte, and a combination thereof. The first emission layer, buffer layer, middle electrode, and second emission layer may be fabricated using a wet process.07-21-2011
20110198573CHARGE-TRANSPORTING POLYMER, COMPOSITION FOR ORGANIC ELECTROLUMINESCENT ELEMENT, ORGANIC ELECTROLUMINESCENT ELEMENT, ORGANIC EL DISPLAY, AND ORGANIC EL LIGHTING - A subject for the invention is to provide a charge-transporting polymer having high hole-transporting ability and excellent solubility and film-forming properties and a composition for organic electroluminescent element which contains the charge-transporting polymer. Another subject for the invention is to provide an organic electroluminescent element which has a high current efficiency and high driving stability. The charge-transporting polymer comprises a group represented by the following formula (1) as a side chain:08-18-2011
20110198571ORGANIC COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE EMPLOYING THE SAME - Organic compounds and organic electroluminescence devices employing the same are provided. The organic compound has a chemical structure represented as follows:08-18-2011
20120199825ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device comprising an anode, a cathode, a light emitting layer that is disposed between the anode and the cathode and contains a first light emitting layer material containing a phosphorescent compound and a second light emitting layer material containing a charge transporting polymer compound (that is, a light emitting layer containing a first light emitting layer material and a second light emitting layer material), and a hole transporting layer that is disposed between the anode and the light emitting layer so as to be adjacent to the light emitting layer and is composed of a hole transporting polymer compound, wherein the lowest excitation triplet energy T108-09-2012
20120199822ORGANIC TRANSISTOR - An organic transistor (08-09-2012
20120199819Light Emitting Element, Light Emitting Device, and Electronic Device - A light emitting element with a high contrast is realized. A light emitting device with a high contrast is achieved by using the light emitting element with an excellent contrast. The light emitting element has a layer containing a light emitting substance interposed between a first electrode and a second electrode, and the layer containing the light emitting substance includes a light emitting layer, a layer containing a first organic compound, and a layer containing a second organic compound. The first electrode has a light-transmitting property, and the layer containing the first organic compound and the layer containing the second organic compound are interposed between the second electrode and the light emitting layer. Furthermore, color of the first organic compound and color of the second organic compound are complementary.08-09-2012
20120199817ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device includes an anode, a cathode, and an organic thin-film layer interposed between the anode and the cathode. The organic thin-film layer includes a phosphorescent-emitting layer containing a host and a phosphorescent dopant, and an electron transporting layer that is provided closer to the cathode than the phosphorescent-emitting layer. The host contains a substituted or unsubstituted polycyclic fused aromatic skeleton.08-09-2012
20130043462Asphaltene Components as Organic Electronic Materials - Asphaltene components are useful as organic electronic materials, especially in the form of thin films, in organic electronic devices, such as optoelectronic devices, for example, photodiodes (e.g., photovoltaic cells), phototransistors, photomultipliers, integrated optical circuits, photoresistors, and the like.02-21-2013
20130043461ORGANIC ELECTROLUMINESCENT ELEMENT AND DISPLAY MEDIUM - An organic electroluminescent element includes a pair of electrodes composed of a positive electrode and a negative electrode, with at least one of the electrodes being transparent or semi-transparent, and one or more organic compound layers interposed between the pair of electrodes, with at least one layer containing one or more charge transporting polyesters represented by the following formula (I), wherein A02-21-2013
20130043463NOVEL ORGANIC COMPOUND - There are provided a novel organic compound that has an excellent luminescent hue and that can produce high-efficiency, high-intensity, and long-life light output, and an organic light-emitting device containing the novel organic compound.02-21-2013
20100155710FORMING ACTIVE CHANNEL REGIONS USING ENHANCED DROP-CAST PRINTING - An active region or channel for printed, organic or plastic electronics or polymer semiconductors, such as organic field-effect transistors (OFETs), is obtained by using an enhanced inkjet drop-cast printing technique. A two-liquid system is employed to achieve the direct growth of well-oriented organic crystals at the active region of channel. High-performance electrical properties exhibiting high carrier mobility and low threshold voltage are obtained due to the proper orientation of molecules in the grown crystal in a highest mobility direction, due to the absence of grain boundaries, and due to low trap densities. The hydrophobic-hydrophilic interactions between the liquids utilized, which results in the fabrication of low-cost and mass-producible printable electronic devices for applications in flexible displays, electronic signages, photovoltaic panels, membrane keyboards, radio frequency identification tags (RFIDs), electronic sensors, and integrated electronic circuits.06-24-2010
20120161113Diode for a Printable Composition - An exemplary printable composition of a liquid or gel suspension of diodes comprises a plurality of diodes, a first solvent and/or a viscosity modifier. An exemplary diode comprises: a light emitting or absorbing region having a diameter between about 20 and 30 microns and a height between 2.5 to 7 microns; a plurality of first terminals spaced apart and coupled to the light emitting region peripherally on a first side, each first terminal of the plurality of first terminals having a height between about 0.5 to 2 microns; and one second terminal coupled centrally to a mesa region of the light emitting region on the first side, the second terminal having a height between 1 to 8 microns.06-28-2012
20120161109SMALL MOLECULE SEMICONDUCTOR - Disclosed is a small molecule semiconductor of Formula (I):06-28-2012
20120161107ORGANIC ELECTROLUMINESCENT DEVICE - [Problem] To provide an organic EL device having high efficiency, low driving voltage and long life by combining various materials for the organic EL device which are excellent in hole and electron injection/transport performances, stability as a thin film and durability.06-28-2012
20100090210COMPOUND HAVING THIOL ANCHORING GROUP, METHOD OF SYNTHESIZING THE SAME, AND MOLECULAR ELECTRONIC DEVICE HAVING MOLECULAR ACTIVE LAYER FORMED USING THE COMPOUND - Provided are an electron donor-azo-electron acceptor compound having a thiol-based anchoring group, a method of synthesizing the compound, and a molecular electronic device having a molecular active layer formed of the compound. The compound for forming a molecular electronic device includes an azo compound that has a dinitrothiophene group and an aminobenzene group having thiol derivatives. The compound forms a molecular active layer in the molecular electronic devices. The molecular active layer is self-assembled on an electrode using the thiol derivative in the azo compound as an anchoring group. The molecular active layer in the molecular electronic device forms a switching device switching between an on-state and an off-state in response to a voltage applied to electrodes or a memory device storing a predetermined electric signal in response to a voltage applied to the electrodes.04-15-2010
20100090206POLYMER LIGHT-EMITTING DEVICE, POLYMER COMPOUND, COMPOSITION, LIQUID COMPOSITION, AND CONDUCTIVE THIN FILM - Disclosed is a polymer light-emitting device having a light-emitting layer arranged between an anode and a cathode, and a hole transport layer arranged between the light-emitting layer and the anode. This polymer light-emitting device is characterized in that the hole transport layer is a layer containing a polymer compound which contains a repeating unit represented by the general formula (I) below, a repeating unit represented by the general formula (II) below and a repeating unit represented by the general formula (III) below.04-15-2010
20110204345PROCESS FOR PRODUCING LIQUID COMPOSITION FOR ORGANIC SEMICONDUCTOR ELEMENT - A problem to be solved of the present invention is to provide a liquid composition for an organic semiconductor device having good coating property, wherein the lifetime of the function of an organic semiconductor device is prolonged when an organic layer is formed from the liquid composition for an organic semiconductor device, and a process for producing the liquid composition. A mean for solving the problem is a process for producing a liquid composition for an organic semiconductor device comprising a step of dissolving an organic compound which is solid at 1 atm and 25° C. in an organic solvent which is liquid at 1 atm and 25° C. and has a halogen compound concentration of not more than 100 ppm by weight.08-25-2011
20110204341ORGANIC ELECTRONIC DEVICES AND POLYMERS, INCLUDING PHOTOVOLTAIC CELLS AND DIKETONE-BASED POLYMERS - Polymers which can be used in p-type materials for organic electronic devices and photovoltaic cells. Compounds, monomers, dimers, trimers, and polymers comprising:08-25-2011
20110204340ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a first plurality of pixels having an emission color that is blue; a second plurality of pixels having an emission color that is green, the second plurality of pixels being laterally spaced from the first plurality of pixels; and a third plurality of pixels having an emission color that is red, the third plurality of pixels being laterally spaced from the first and second pluralities of pixels.08-25-2011
20100019229Thiophene compound having phosphoric ester and process for producing the same - A thiophene compound having a phosphate group, for example, one represented by the formula [1]. The compound has high resistance to heat and oxidation and can be improved in solubility or dispersibility in various solvents.01-28-2010
20090194763SEMICONDUCTOR ELEMENT, METHOD FOR MANUFACTURING THE SEMICONDUCTOR ELEMENT, ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING THE ELECTRONIC DEVICE - A manufacturing method of a semiconductor element provided with a semiconductor layer containing a crystal of an organic semiconductor material of the invention includes the steps of (i) forming a frame (08-06-2009
20090194762Method of Doping Organic Semiconductors - A method includes forming a contiguous semiconducting region that includes polyaromatic molecules. The region is heated to a temperature above room temperature in the presence of a dopant gas and the absence of light to form a doped organic semiconducting region.08-06-2009
20100051926Anthracene Derivative, Material for Light-Emitting Element, Light-Emitting Element, Light-Emitting Device, and Electronic Appliance - An anthracene derivative represented by general formula (1) is provided. In the formula, Ar03-04-2010
20090218564Alternating copolymers of phenylene vinylene and biarylene vinylene, preparation method thereof, and organic thin flim transister comprising the same - Disclosed herein are an alternating copolymer of phenylene vinylene and biarylene vinylene, a preparation method thereof, and an organic thin film transistor including the same. The organic thin film transistor maintains low off-state leakage current and realizes a high on/off current ratio and high charge mobility because the organic active layer thereof is formed of an alternating copolymer of phenylene vinylene and biarylene vinylene.09-03-2009
20100051924FLUORENE-CONTAINING COMPOUND AND ORGANIC LIGHT EMITTING DEVICE EMPLOYING THE SAME - A novel fluorene-containing compound and an organic electroluminescent device including an organic layer employing the same. The fluorene-containing compound has excellent electrical characteristics and an excellent charge transporting capability, and so can be used as a hole injecting material, hole transporting material, and/or emitting material that is suitable for all-color fluorescent and phosphorescent devices, such as red, green, blue, and white fluorescent and phosphorescent devices. Accordingly, an organic electroluminescent device employing the fluorene-containing compound has high efficiency, a low driving voltage, high brightness, and a long lifetime.03-04-2010
20100051919ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM LIGHT-EMITTING TRANSISTOR - An organic thin film transistor including a substrate having thereon at least three terminals of a gate electrode, a source electrode and a drain electrode, an insulator layer and an organic semiconductor layer, with a current between a source and a drain being controlled upon application of a voltage to the gate electrode, wherein the organic semiconductor layer includes a specified organic compound having an aromatic hydrocarbon group or an aromatic heterocyclic group in the center thereof; and an organic thin film light emitting transistor utilizing an organic thin film transistor, wherein the organic thin film transistor is one in which light emission is obtained utilizing a current flowing between the source and the drain, and the light emission is controlled upon application of a voltage to the gate electrode, and is made high with respect to the response speed and has a large ON/OFF ratio, are provided.03-04-2010
20120168739FLUORENE COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE - Provided is a novel fluorene compound, which is represented by the following general formula (1):07-05-2012
20120168734COMPOUND CONTAINING 5-MEMBERED HETEROCYCLES, ORGANIC LIGHT-EMITTING DEVICE USING SAME, AND TERMINAL COMPRISING THE LATTER - Disclosed are a compound including 5-membered heterocycles, an organic electronic device using the same, and a terminal including the latter.07-05-2012
20120168732AMBIPOLAR SMALL MOLECULE HOSTS FOR PHOSPHORESCENT GUEST EMITTERS - The inventions describe disclosed and described herein relate to ambipolar small molecule host materials for guest phosphorescent metal complexes. Methods of making the ambipolar small molecules are also described. These ambipolar small molecules, which comprise both an oxadiazole and one or more carbazole groups, can be used to make the emission layers of unexpectedly efficient OLED devices containing the materials of the inventions, wherein (I) at least one of the R07-05-2012
20100140591ELECTRICAL DEVICE FABRICATION FROM NANOTUBE FORMATIONS - A method for forming nanotube electrical devices, arrays of nanotube electrical devices, and device structures and arrays of device structures formed by the methods. Various methods of the present invention allow creation of semiconducting and/or conducting devices from readily grown SWNT carpets rather than requiring the preparation of a patterned growth channel and takes advantage of the self-controlling nature of these carpet heights to ensure a known and controlled channel length for reliable electronic properties as compared to the prior methods.06-10-2010
20100140595ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device includes a first substrate, a plurality of organic light emitting devices on the first substrate, a second substrate arranged opposite and substantially parallel to the first substrate with the organic light emitting devices therebetween, a plurality of spacers between the organic light emitting devices and the second substrate, and a plurality of fillers alternately arranged with the spacers and configured to fill in space between the first substrate and the second substrate, wherein at least portions of the spacers overlap with a plurality of light emitting regions corresponding to the organic light emitting devices. The spacers and fillers are composed of transparent materials having refractive indexes similar to each other so that visibility and image quality are not lowered and the distance between the substrates is substantially constant.06-10-2010
20100012930ORGANIC TRANSISTOR USING THIAZOLOTHIAZOLE DERIVATIVES AND METHOD FOR FABRICATING THE SAME - The present invention relates to an organic transistor that includes an organic semiconductor layer containing a thiazolothiazole derivative and an insulating organic material having a band gap of 3 eV or more or no portion having four pairs or more of double bonds and single bonds continuously connected.01-21-2010
20090230383Passive matrix organic light emitting diode display device - A passive matrix organic light emitting diode display device comprises a plurality of vertical organic light emitting transistors, each having a first collector, a first grid/base, and a first emitter. Therein, the first collectors are electrically connected and arranged parallelly to form a plurality of first scan units, and the first grids/bases are electrically connected and arranged parallelly to form a plurality of second scan units, while the first emitters are integrated into a common electrode, in which the first scan units and the second scan units are perpendicularly crossed. By perpendicularly combining vertical transistors onto organic light emitting diodes so as to drive the organic light emitting diodes, an active area as well as a luminance of the organic light emitting diode display device are enhanced and consequently an aperture ratio of each pixel unit in the organic light emitting diode display device is increased.09-17-2009
20110186820THIN FILM DEPOSITION APPARATUS, METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY DEVICE BY USING THE APPARATUS, AND ORGANIC LIGHT-EMITTING DISPLAY DEVICE MANUFACTURED BY USING THE METHOD - A thin film deposition apparatus, a method of manufacturing an organic light-emitting display device by using the thin film deposition apparatus, and an organic light-emitting display device manufactured using the method. In the thin film deposition apparatus for forming a thin film on a substrate, the apparatus includes a deposition source that discharges a deposition material; a deposition source nozzle unit disposed at a side of the deposition source and including a plurality of deposition source nozzles arranged in a first direction; a patterning slit sheet disposed opposite to the deposition source nozzle unit and including a common deposition region at an end of the patterning slit sheet and a plurality of patterning slits on the other end in a second direction perpendicular to the first direction, where each of the plurality of pattering slits includes a plurality of patterning sub slits that are different in length; and a barrier plate assembly disposed between the deposition source nozzle unit and the patterning slit sheet in the first direction, and including a plurality of barrier plates that partition a deposition space between the deposition source nozzle unit and the patterning slit sheet into a plurality of sub-deposition spaces. The thin film deposition apparatus is separated from the substrate by a predetermined distance. The thin film deposition apparatus and the substrate are movable relative to each other.08-04-2011
20090026443ORGANIC THIN-FILM TRANSISTOR AND METHOD OF MANUFACTURE THEREOF - A durable organic thin-film transistor and a method of manufacture thereof, the organic thin-film transistor having: a source electrode and a drain electrode arranged mutually separated; an organic semiconductor layer interposed between the source electrode and the drain electrode; and a gate electrode arranged to face said organic semiconductor layer which is between said source electrode and said drain electrode, with a gate insulating film being provided between said gate electrode and said organic semiconductor layer, wherein the gate insulating film includes an organic compound and particles of an inorganic compound dispersed in the organic compound, and a flattened film is provided between the source electrode and the drain electrode, or the gate electrode and the gate insulating film.01-29-2009
20090146139MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention relates to anthracene derivatives, to the use thereof in organic electroluminescent devices, and to organic electroluminescent devices comprising these compounds.06-11-2009
20130134404LIGHT-EMITTING DEVICE, METHOD FOR MANUFACTURING THE SAME, AND ELECTRONIC APPARATUS - The present invention provides a light-emitting device including a light-emitting element over a substrate, the light-emitting element is partitioned from an adjacent light-emitting element by a partition wall, the light-emitting element comprising a first electrode, a layer formed over the first electrode, a light-emitting layer formed over the layer and a second electrode formed over the light-emitting layer, the layer contains an inorganic compound, an organic compound and a halogen atom, the partition wall contains the inorganic compound and the organic compound, and the layer. The light-emitting device provides higher reliability and fewer defects.05-30-2013
20130134405BENZOFLUORENE COMPOUND, EMISSION MATERIALS AND ORGANIC ELECTROLUMINESCENT DEVICE - Provided is a benzofluorene compound which exhibits excellent performances when applied to an organic electroluminescent device.05-30-2013
20130134399ORGANIC THIN FILM TRANSISTOR ARRAY SUBSTRATE AND METHOD FOR MANUFACTURING THE SAME, AND DISPLAY DEVICE - According to the present invention, there is provided an organic thin film transistor array substrate and a method for manufacturing the same and a display device. The method for manufacturing the organic thin film transistor array substrate comprises: forming a pattern comprising a source electrode, a drain electrode, a data line and a pixel electrode on a transparent substrate through a first patterning process; forming an organic semiconductor pattern, a gate insulating layer pattern, a pattern comprising a gate electrode and a gate line through a second patterning process on the transparent substrate after the first patterning process; depositing a passivation layer on the transparent substrate after the second patterning process, and forming a pattern comprising a data line pad region, a gate line pad region and a pixel pad region through a third patterning process; and forming a pattern of a common electrode on the transparent substrate after the third patterning process through a fourth patterning process. The technical solutions of the present invention can increase production efficiency of the organic thin film transistor array substrate and reduce production costs.05-30-2013
20130134398Sealed Structure, Light-Emitting Device, Electronic Device, and Lighting Device - A sealed structure which has high sealing capability and whose border can be slim is provided. The sealed structure includes a pair of substrates whose respective surfaces face each other with a space therebetween, and a glass layer which is in contact with the substrates, defines a space between the substrates, and has at least one corner portion and side portions in continuity with the corner portion. The width of the corner portion of the glass layer is smaller than or equal to that of the side portion of the same. The sealed structure may comprise a highly reliable light-emitting element including a layer containing a light-emitting organic compound provided between a pair of electrodes.05-30-2013
20130134395LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, LIGHTING DEVICE AND ORGANIC COMPOUND - A novel organic compound which can be used as a host material for a phosphorescent compound is provided. A light-emitting element containing the organic compound is provided. A light-emitting device, an electronic device, and a lighting device each of which includes the light-emitting element are provided. In the light-emitting element including a light-emitting layer interposed between a pair of electrodes, the light-emitting layer contains at least an organic compound and a phosphorescent compound. In the organic compound, a dibenzo[f,h]quinoxaline skeleton and an amino group having two substituents are bonded to each other through an arylene group. The substituents are separately an aryl group or a heteroaryl group.05-30-2013
20100084644DISPLAY SUBSTRATE METHOD OF MANUFACTURING THE SAME - A display substrate includes a base substrate, a barrier pattern, a source electrode, a drain electrode, a semiconductor layer, an insulating layer, and a gate electrode. The barrier pattern protrudes from the base substrate. The source and gate electrodes are formed adjacent to opposite sides of the barrier pattern on the base substrate. The semiconductor layer is provided on the barrier pattern to connect the source electrode with the drain electrode, and the insulating layer covers the semiconductor layer, the source electrode, and the drain electrode. The gate electrode is provided on the insulating layer, and is overlapped with the semiconductor layer.04-08-2010
20100084638Thin Film Transistor - A method of making a top-gate organic thin film transistor, comprising forming source and drain contacts on a substrate; oxidizing portions of the source and drain contacts; depositing an organic semiconductor layer to form a bridge between the oxidized portions of the source and drain contacts; depositing a gate insulating layer over the organic semiconductor layer; and forming a gate electrode over the gate insulating layer.04-08-2010
20130075716ORGANIC ELECTROLUMINESCENCE ELEMENT - An organic electroluminescence device (03-28-2013
20130075711THIN-FILM SEMICONDUCTOR DEVICE FOR DISPLAY APPARATUS, METHOD FOR MANUFACTURING THIN-FILM SEMICONDUCTOR DEVICE FOR DISPLAY APPARATUS, EL DISPLAY PANEL, AND EL DISPLAY APPARATUS - A thin-film semiconductor device for a display apparatus according to the present disclosure includes: a gate electrode above a substrate; a gate insulating film above the gate electrode; a semiconductor layer above the gate electrode; a first electrode above the semiconductor layer; a second electrode in a same layer as the first electrode; an interlayer insulating film covering the first electrode and the second electrode; a gate line above the interlayer insulating film; a first power supply line electrically connected to the second electrode and in a same layer as the second electrode; and a second power supply line in a same layer as the gate line. Furthermore, the gate electrode and the gate line are electrically connected via a first conductive portion, and the first power supply line and the second power supply line are electrically connected via a second conductive portion.03-28-2013
20130075707LIGHT-EMITTING DEVICE AND LIGHTING APPARATUS - The light output surface structure layer has a concavo-convex structure on a surface opposite to the organic EL element. The concavo-convex structure includes flat surface portions parallel to one surface of the organic EL element and an inclined surface portion tilted relative to the flat surface portions. The projected area which is formed by projecting the inclined surface portion in a direction perpendicular to the flat surface portions onto a plane parallel to the flat surface portions is equal to or less than 0.1 times the total area of the flat surface portions. On a cross section of a flat surface portion cut along a plane parallel to the width and thickness directions thereof, the ratio H/W is 1 or greater and 2.5 or less, where H and W are the height and the width thereof, respectively.03-28-2013
20130075706SUBSTITUTED BIARYL COMPOUNDS FOR LIGHT-EMITTING DEVICES - Some substituted biaryl ring systems may be useful in light-emitting devices, such as those comprising a light-emitting diode. For example, substituted bipyridinyl or substituted phenylpyridinyl may be useful in these devices. The substituted biaryl ring system may have at least two different substituents, including one on each ring on the biaryl system. The first substituent may include optionally substituted carbazolyl, optionally substituted diphenylamine, optionally substituted diphenylaminophenyl, and optionally substituted carbazolylphenyl. The second substituent may include optionally substituted benzimidazol-2-yl, optionally substituted benzoxazol-2-yl, and an optionally substituted benzothiazol-2-yl.03-28-2013
20100148154APPARATUS AND SEMICONDUCTOR CO-CRYSTAL - The invention provides a method to enforce face-to-face stacking of organic semiconductors in the solid state that employs semiconductor co-crystal formers (SCCFs), to align semiconductor building blocks (SBBs). Single-crystal X-ray analysis reveals π-orbital overlap optimal for organic semiconductor device applications.06-17-2010
20080258138Thin film transistor array panel and fabricating method thereof, and flat panel display with the same - An organic thin film transistor array panel, for an embodiment, includes a plurality of pixel electrodes formed on a top layer to cover organic thin film transistors, with display areas defined by the areas of the pixel electrodes. Accordingly, the aperture ratio of the display device may be increased. A ratio of width to length (W/L) in a channel of an organic thin film transistor may be increased, and thereby on current (Ion) of the organic thin film transistor may be increased. The organic semiconductor may be prevented from overflowing while being formed in holes by an inkjet printing method such that deterioration of thin film transistor characteristics and pixel defects is prevented. The adhesive of the electrophoretic sheet is prevented from penetrating into the organic semiconductor when the electrophoretic display is formed by attaching the electrophoretic sheet to the organic thin film transistor array panel by a lamination method.10-23-2008
20080258136Logic Circuit - The invention includes a two terminal switching device having two stable resistivity values for each applied voltage, which when a voltage of not more than a first threshold voltage (Vth10-23-2008
20110193075PRINTABLE LIGHT-EMITTING COMPOSITIONS - Disclosed herein are compositions comprising an electron transport compound, an emissive compound, and an organic solvent. The emissive compound comprises an organic indium complex attached to a nanoparticle core. These compositions are useful in fabricating light emitting devices and can be deposited on a substrate via a printing process.08-11-2011
20110193074NOVEL COMPOUND AND ORGANIC DEVICE USING SAME - The present invention relates to a novel compound and an organic light emitting device using the compound, and the compound according to the present invention may largely improve a life span, efficiency, electrochemical stability and thermal stability of the organic light emitting device.08-11-2011
20110193073FULLERENE DERIVATIVE, COMPOSITION AND ORGANIC PHOTOELECTRIC CONVERSION ELEMENT - The present invention provides a fullerene derivative represented by the following formula (1).08-11-2011
20110193072FULLERENE DERIVATIVE, COMPOSITION, AND ORGANIC PHOTOELECTRIC CONVERSION ELEMENT - The present invention provides a fullerene derivative represented by the following formula (1).08-11-2011
20110193071RESIN COMPOSITION, GATE INSULATING LAYER, AND ORGANIC THIN FILM TRANSISTOR - The subject of the present invention is to provide an organic thin film transistor with a small hysteresis. The means for solving the subject is a resin composition for an organic thin film transistor gate insulating layer comprising (A) a macromolecule that comprises at least one repeating unit selected from the group consisting of repeating units represented by Formula (1), repeating units represented by Formula (1′), and repeating units represented by Formula (2) and contains two or more first functional groups in its molecule, wherein the first functional group is a functional group that generates, by the action of electromagnetic waves or heat, a second functional group that reacts with active hydrogen, and (B) at least one compound selected from the group consisting of low-molecular compounds containing two or more active hydrogens in each molecule and macromolecules containing two or more active hydrogens in each molecule.08-11-2011
20110193070Light Emitting Device and Manufacturing Method Thereof - A light emission device manufactured by a method of forming a curved surface having a radius of curvature to the upper end of an insulator 08-11-2011
20110193069ORGANIC LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic light emitting device and a method of manufacturing the same, the organic light emitting device includes a first electrode, a second electrode, and an organic layer that has at least a multi-coated emissive layer and which is interposed between the first and second electrodes. The multi-coated emissive layer is a single layer composed of a neutral emissive material and an n08-11-2011
20110193068Composite film, flexible substrate including the composite film, and organic light emitting device including the flexible substrate - A composite film, a flexible substrate, and an organic light emitting device, the composite film including a composite including a sulfonic acid group containing moiety connected by an ether linkage (—O—) to an inorganic material having a nano-sized interlayer distance.08-11-2011
20110193067ORGANIC LIGHT-EMITTING DEVICE INCLUDING BARRIER LAYER INCLUDING SILICON OXIDE LAYER AND SILICON-RICH SILICON NITRIDE LAYER - An organic light-emitting device including a barrier layer that includes a silicon oxide layer and a silicon-rich silicon nitride layer. The organic light-emitting device includes a flexible substrate that includes a barrier layer and plastic films disposed under and over the barrier layer. The barrier layer includes a silicon-rich silicon nitride layer and a silicon oxide layer. The order in which the silicon-rich silicon nitride layer and the silicon oxide layer are stacked is not limited and the silicon oxide layer may be first formed and then the silicon-rich silicon nitride layer may be stacked on the silicon oxide layer. The silicon-rich silicon nitride layer has a refractive index of 1.81 to 1.85.08-11-2011
20110193065Organic thin film transistor - An organic thin film transistor includes: a gate electrode, a gate insulating film, a source electrode, a drain electrode, and an organic active layer. The organic active layer includes an organic semiconductor compound represented by the following formula (A) as defined in the specification.08-11-2011
20110193064DIAMINOPYRENE DERIVATIVE AND ORGANIC EL DEVICE USING THE SAME - An organic EL device includes an emitting layer provided between an anode and a cathode. The emitting layer contains a diaminopyrene derivative represented by the following formula (1) as an emitting material for the organic EL device. The diaminopyrene derivative emits light with electrical energy.08-11-2011
20130087775Light Emitting Device - The present invention provides a TFT that has a channel length particularly longer than that of an existing one, specifically, several tens to several hundreds times longer than that of the existing one, and thereby allowing turning to an on-state at a gate voltage particularly higher than the existing one and driving, and allowing having a low channel conductance gd. According to the present invention, not only the simple dispersion of on-current but also the normalized dispersion thereof can be reduced, and other than the reduction of the dispersion between the individual TFTs, the dispersion of the OLEDs themselves and the dispersion due to the deterioration of the OLED can be reduced.04-11-2013
20130087777SURFACE LIGHT SOURCE DEVICE AND LIGHTING APPARATUS - A surface light source device including an organic EL element of a double-side emission type and a light output surface structure layer provided on at least one surface of the organic EL element, wherein the light output surface structure layer includes a concavo-convex structure on a surface opposite to the organic electroluminescent element, the concavo-convex structure having flat surface portions parallel to the surface and an inclined surface portion tilted relative to the flat surface portions, and a projected area formed by projecting the inclined surface portion in a direction perpendicular to the flat surface portions onto a plane parallel to the flat surface portions is not more than 0.1 times a total area of the flat surface portions.04-11-2013
20130037792ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode (OLED) display is disclosed. In one embodiment, the OLED display includes an organic light emitting element formed over a substrate and an encapsulation portion covering the organic light emitting element. Further, the encapsulation portion may include at least one organic layer and at least one inorganic layer, wherein ends of the inorganic layer and the organic layer directly contact the substrate, and wherein the organic layer is thicker than the inorganic layer.02-14-2013
20130037791ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device that achieves highly efficient emission and low-voltage operation is provided. The organic light-emitting device contains a 9H-xanthen-9-one derivative.02-14-2013
20130037790NOVEL 10,10-DIALKYLANTHRONE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A novel stable 10,10-dialkylanthrone compound is provided.02-14-2013
20130037788NOVEL m-TERPHENYL COMPOUND AND ORGANIC LIGHT EMITTING DEVICE INCLUDING THE SAME - An organic light emitting device which includes a m-terphenyl compound having a high T1 energy is provided. In addition, a novel m-terphenyl compound is provided.02-14-2013
20090261321Quinoid Systems as Organic Semiconductors - A semiconducting layer comprising a non-polymeric quinoid heteroacene compound of the formula (I) wherein X stands for O, S or NR, each of R, R10-22-2009
20130037787ORGANIC LIGHT EMITTING DEVICE - The invention relates to an organic light-emitting device (OLED) comprising at least: a first electrode (02-14-2013
20130037789NOVEL NAPHTHOTHIOPHENE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - The present invention provides a novel naphthothiophene compound having a high lowest excited triplet level (T1).02-14-2013
20130037785LIGHT EMITTING ELEMENT, LIGHT EMITTING DEVICE, AND ELECTRONIC DEVICE - A light emitting element including an anode, a cathode, a visible light emitting layer which emits visible light and an infrared light emitting layer which emits infrared light installed between the anode and the cathode is provided. Also, it is preferable that the infrared light emitting layer contain a thiadiazole-based compound as a light emitting material.02-14-2013
20130037786NANOCOMPOSITE, PROCESS FOR PREPARING THE SAME, AND SURFACE EMITTING DEVICE - A nanocomposite including: a matrix including a polyimide; and surface-modified inorganic oxide particles disposed in the matrix, wherein a surface of a particle of the surface-modified inorganic oxide particles is modified with an imide functional group.02-14-2013
20130037782HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DIODE INCLUDING THE SAME - A heterocyclic compound represented by Formula 1 below and an organic light-emitting diode (OLED) including the same:02-14-2013
20130037783ORGANIC LIGHT-EMITTING DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display apparatus is disclosed. In one aspect, the apparatus includes a thin film transistor comprising an active layer, a gate electrode, and source and drain electrodes. The apparatus also includes at least two capacitors each comprising a first electrode having a first region doped with ion impurities and a second region not doped with ion impurities, and formed on the same plane as the active layer. Each capacitor also includes a second electrode formed on the same plane as the gate electrode and disposed corresponding to the second region. The apparatus also includes a pixel electrode formed on the same plane as the gate electrode and connected to one of the source and drain electrodes, a light-emitting layer disposed on the pixel electrode, and an opposite electrode disposed on the light-emitting layer.02-14-2013
20130037784THIADIAZOLE, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING APPARATUS, AUTHENTICATION APPARATUS, AND ELECTRONIC DEVICE - The thiadiazole represented by formula (02-14-2013
20120175600AROMATIC AMINE DERIVATIVE, AND ORGANIC ELECTROLUMINESCENT ELEMENT - Provided is an organic electroluminescence device that provides high efficiency and a long lifetime. The device includes an aromatic amine including at least one substituent A having dibenzofuran and at least one substituent B selected from groups having dibenzofuran or carbazole. The substituent A and the substituent B include groups different from each other and are bonded to the same or different nitrogen atoms in the molecule. The molecules of the aromatic amine hardly crystallize, improving yield in producing the organic electroluminescence device. The device includes an organic thin film layer formed of one or more layers including at least a light emitting layer, the organic thin film layer being interposed between a cathode and an anode. The aromatic amine is contained in at least one layer, particularly a hole transport layer, in the organic thin film layer.07-12-2012
20100163856METHOD OF FABRICATING POLYSILICON, THIN FILM TRANSISTOR, METHOD OF FABRICATING THE THIN FILM TRANSISTOR, AND ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE INCLUDING THE THIN FILM TRANSISTOR - A thin film transistor, a method of fabricating the thin film transistor, and an organic light emitting diode (OLED) display device including the thin film transistor, the thin film transistor including: a substrate; a buffer layer formed on the substrate; a first semiconductor layer disposed on the buffer layer; a second semiconductor layer disposed on the first semiconductor layer, which is larger than the first semiconductor layer; a gate electrode insulated from the first semiconductor layer and the second semiconductor layer; a gate insulating layer to insulate the gate electrode from the first semiconductor layer and the second semiconductor layer; source and drain electrodes insulated from the gate electrode and connected to the second semiconductor layer; an insulating layer disposed on the source and drain electrodes, and an organic light emitting diode connected to one of the source and drain electrodes.07-01-2010
20100078629ORGANIC EL DISPLAY DEVICE - An organic EL display device includes a pixel electrode which is disposed in each of first to third organic EL elements, a first light emission layer which includes a first dopant material having a first absorbance peak, the first light emission layer extending over the first to third organic EL elements and being disposed above the pixel electrode, a second light emission layer which includes a second dopant material having a second absorbance peak and is disposed above the first light emission layer, a third light emission layer which is disposed above the second light emission layer, a counter-electrode which is disposed above the third light emission layer, and a hole transport layer which is formed of a material having an absorbance bottom on a shorter wavelength side than the first absorbance peak and the second absorbance peak in absorbance spectrum characteristics of the hole transport layer.04-01-2010
20100065830Organic thin film transistor and method for fabricating the same - Disclosed herein are a method for fabricating an organic thin film transistor, including treating the surfaces of a gate insulating layer and source/drain electrodes with a self-assembled monolayer (SAM)-forming compound through a one-pot reaction, and an organic thin film transistor fabricated by the method. According to example embodiments, the surface-treatment of the gate insulating layer and the source/drain electrodes may be performed in a single vessel through a single process.03-18-2010
20090206327ORGANOMETALLIC COMPLEXES - Organometallic complexes are provided having at least one charge transporting ligand, and methods for making the same, as well as devices and sub-assemblies including the same.08-20-2009
20100117066Organic Semiconductors - The invention relates to novel substituted dibenzo[d,d′]benzo[1,2-b;4,5-b′]dithiophenes (DBBDT), to methods of their synthesis, to organic semiconducting materials, formulations and layers comprising them, and to electronic devices, like organic field effect transistors (OFETs), comprising them.05-13-2010
20100117068Organometallic Complex, and Light Emitting Element and Electronic Appliance Using the Same - It is an object of the present invention to provide a substance which can emit red phosphorescence which is closer to the chromaticity coordinates of red according to the NTSC standard. The present invention provides an organometallic complex represented by the general formula (1), wherein each of R1 to R3 represents any one of hydrogen, a halogen group, an acyl group, an alkyl group, an alkoxyl group, an aryl group, a cyano group, and a heterocyclic group, and at least one of R05-13-2010
20080296562Methods and apparatus for fabricating carbon nanotubes and carbon nanotube devices - Methods and apparatus for fabricating carbon nanotubes (CNTs) and carbon nanotube devices. These include a method of fabricating self-aligned CNT field-effect transistors (FET), a method and apparatus of selectively etching metallic CNTs and a method and apparatus of fabricating an oxide in a carbon nanotube (CNT) device. These methods and apparatus overcome many of the disadvantages and limitations of the prior art.12-04-2008
20100072464ORGANIC THIN-FILM TRANSISTOR SUBSTRATE, ITS MANUFACTURING METHOD, IMAGE DISPLAY PANEL, AND ITS MANUFACTURING METHOD - The present invention is a method for manufacturing an organic thin-film transistor substrate including an organic thin-film transistor as a transistor element, and an object of the invention is to provide a manufacturing method capable of forming a bank in a smaller number of steps. The method for manufacturing the organic thin-film transistor substrate of the present invention, in which an organic thin-film transistor is formed in a first region on a substrate, a second region for forming a light-emitting element in abutment with the first region is included, and a bank part is formed in a peripheral part of the second region, is characterized by including: a first step of forming the organic thin-film transistor in the first region on the substrate and forming at least one of the gate insulation layer and the organic semiconductor layer included by this organic thin-film transistor as far as the second region, thereby forming, in the second region, a bank precursor layer composed of a laminated structure formed on the second region; and a second step of removing the regions of the bank precursor layer other than the peripheral part, thereby forming the bank part made of the remaining bank precursor layer.03-25-2010
20100072463LAMINATE STRUCTURE AND ITS MANUFACTURING METHOD - A disclosed laminate structure is capable of having its surface free energy changed with a small amount of UV irradiation. The invention also discloses a method of manufacturing the laminate structure; an electronic device having the laminate structure; an electronic device array having a plurality of the electronic devices; and a display apparatus having the electronic device array. The laminate structure includes a substrate 03-25-2010
20100072462PLANARIZING AGENTS AND DEVICES - Use of certain materials in hole injection layer and/or hole transport layer can improve operational lifetimes in organic devices. Polymers having fused aromatic side groups such as polyvinylnaphthol polymers can be used in conjunction with conjugated polymers. Inks can be formulated and cast as films in organic electronic devices including OLEDs, SMOLEDs, and PLEDs. One embodiment provides a composition comprising: at least one conjugated polymer, and at least one second polymer different from the conjugated polymer comprising at least one optionally substituted fused aromatic hydrocarbon side group. The substituent can be hydroxyl. Aqueous-based inks can be formulated.03-25-2010
20080283829Organic insulator composition including a hydroxyl group-containing polymer, dielectric film and organic thin film transistor using the same - An organic insulator composition including a crosslinking agent and a hydroxyl group-containing oligomer or hydroxyl group-containing polymer is provided. A dielectric film and an organic thin film transistor (OTFT) using an organic insulator composition are also provided. A dielectric film may include a compound having hydroxyl group-containing oligomers or hydroxyl group-containing polymers linked by crosslinking using a crosslinking agent having at least two vinyl ether groups. An organic thin film transistor may include a gate electrode on a substrate, a gate insulating layer on the gate electrode, source and drain electrodes on the gate insulating layer and an organic semiconductor layer contacting the gate insulating layer, wherein the gate insulating layer includes an dielectric film as described above.11-20-2008
20130075708LIGHT EMITTING DEVICE - The present invention provides a light emitting device 03-28-2013
20130075715COMPOUND HAVING ACRIDAN RING STRUCTURE, AND ORGANIC ELECTROLUMINESCENT DEVICE - An organic compound with characteristics excelling in hole-injecting/transporting performance and having an electron blocking ability, a highly stable thin-film state, and excellent heat resistance is provided as material for an organic electroluminescent device of high efficiency and high durability, and the organic electroluminescent device of high efficiency and high durability is provided using this compound. The compound of a general formula (Chemical Formula 1) having a substituted acridan ring structure is used as a constituent material of at least one organic layer in the organic electroluminescent device that includes a pair of electrodes and one or more organic layers sandwiched between the pair of electrodes.03-28-2013
20130075713Light-Emitting Element, Light-Emitting Device, and Electronic Device - A light-emitting element disclosed in the present invention includes a light-emitting layer and a first layer between a first electrode and a second electrode, in which the first layer is provided between the light-emitting layer and the first electrode. The present invention is characterized by the device structure in which the first layer comprising a hole-transporting material is doped with a hole-blocking material or an organic compound having a large dipole moment. This structure allows the formation of a high performance light-emitting element with high luminous efficiency and long lifetime. The device structure of the present invention facilitates the control of the rate of the carrier transport, and thus, leads to the formation of a light-emitting element with a well-controlled carrier balance, which contributes to the excellent characteristics of the light-emitting element of the present invention.03-28-2013
20130075710ORGANIC ELECTRO-LUMINESCENCE DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - An OLED device is disclosed. The OLED device includes a first substrate including a driver element and a connection electrode connected to the driver element, a second substrate including an organic light emission diode element, a contact spacer electrically connected to the connection electrode, and a sealant disposed into a cavity which is formed by the first and second substrates, the connection electrode, the organic light emission diode element, and the contact space. Herein, the sealant is bonded to the contact spacer and the connection electrode and maintains the electric connection between the contact spacer and the connection electrode. In this manner, the driver element and the organic light emission diode element are protected from external oxygen and/or moisture, and the electric connection between the connection electrode and the contact spacer is reinforced. Accordingly, the contact defect between the connection electrode and the contact spacer can be prevented and the structural strength of the OLED device can be greatly improved.03-28-2013
20130075709Light Emitting Device and Electronic Equipment - A display device capable of keeping the luminance constant irrespective of temperature change is provided as well as a method of driving the display device. A current mirror circuit composed of transistors is placed in each pixel. A first transistor and a second transistor of the current mirror circuit are connected such that the drain current of the first transistor is kept in proportion to the drain current of the second transistor irrespective of the load resistance value. The drain current of the first transistor is controlled by a driving circuit in accordance with a video signal and the drain current of the second transistor is caused to flow into an OLED, thereby controlling the OLED drive current and the luminance of the OLED.03-28-2013
20130075704HETEROCYCLIC COMPOUND, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, LIGHTING DEVICE, AND ORGANIC COMPOUND - Provided is a novel heterocyclic compound which can be used in a light-emitting layer of a light-emitting element as a host material in which a light-emitting material is dispersed, i.e., a heterocyclic compound represented by a general formula (G1). Any one of R03-28-2013
20130075705Carbazole Compound, Light-Emitting Element Material, and Organic Semiconductor Material - A carbazole compound which can be used for a transport layer or as a host material or a light-emitting material of a light-emitting element is provided. Specifically, a carbazole compound which makes it possible to obtain a light-emitting element having good characteristics when used in a light-emitting element emitting blue phosphorescence is provided. In the carbazole compound, the 9-position of one carbazole, the 9-position of the other carbazole, and the 1-position of a benzimidazole skeleton are bonded to the 1-position, the 3-position, and the 5-position of benzene.03-28-2013
20130032791CONJUGATED POLYMERS HAVING AN IMINE GROUP AT THE INTRACHAIN ELECTRON DONOR BRIDGEHEAD POSITION USEFUL IN ELECTRONIC DEVICES - Described herein are novel light absorbing conjugated polymeric electron donor materials for organic photovoltaic devices and other applications. In one embodiment, the polymer structure comprises a conjugated electron rich donor unit with an imine functionality at the bridgehead position and a conjugated electron deficient unit in the polymer backbone arranged in an alternating fashion. Monomers suitable for making the polymers, and devices utilizing the polymers, are also disclosed.02-07-2013
20130032788CARBAZOLE-BASED COMPOUND AND ORGANIC LIGHT-EMITTING DIODE COMPRISING THE SAME - A carbazole-based compound of Formula 1 and an organic light-emitting diode including the same. The carbazole-based compound represented by Formula 1 has a triarylamine structure, wherein at least one of R02-07-2013
20130032792Suspension or Solution for Organic Optoelectronic Device, Making Method thereof, and Applications - A suspension or solution for organic optoelectronic device is disclosed in this invention. The composition of the suspension or solution includes at least one kind of micro/nano transition metal oxide and a solvent. The composition of the suspension or solution can selectively include at least one kind of transition metal oxide ions or a precursor of transition metal oxide. Moreover, the making method and applications of the suspension or solution is also disclosed in this invention.02-07-2013
20130032789ORGANIC ELECTROLUMINESCENT ELEMENT AND DISPLAY MEDIUM - An organic electroluminescent element includes a pair of electrodes formed of a positive electrode and a negative electrode, with at least one of the electrodes being transparent or semi-transparent, and one or more organic compound layers interposed between the pair of electrodes, with at least one layer containing one or more charge transporting polyesters represented by the following formula (I), wherein A02-07-2013
20130032790ORGANIC ELECTROLUMINESCENT ELEMENT AND DISPLAY - Provided is an organic electroluminescent element which includes a pair of electrodes composed of a positive electrode and a negative electrode, with at least one of the electrodes being transparent or semi-transparent, and an organic compound layer interposed between the pair of electrodes and containing one or more charge transporting polyesters represented by the following formula (I) [in the formula (I), A02-07-2013
20130032787HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A heterocyclic compound represented by Formula 1 or Formula 2 below, and an organic light-emitting device including the heterocyclic compound. The organic light-emitting device may include an organic layer containing the heterocyclic compound, and thus may have a low driving voltage, a high-emission efficiency, and long lifespan characteristics.02-07-2013
20130032785MATERIALS FOR ORGANIC LIGHT EMITTING DIODE - Organometallic compounds comprising a phenylquinoline or phenylisoquinoline ligand having the quinoline or isoquinoline linked to the phenyl ring of the phenylquinoline or phenylisoquinoline, respectively, via two carbon atoms. These compounds also comprise a substituent other than hydrogen and deuterium on the quinoline, isoquinoline or linker. These compounds may be used as red emitters in phosphorescent OLEDs. In particular, these compounds may provide stable, narrow and efficient red emission.02-07-2013
20130032786ORGANIC COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE EMPLOYING THE SAME - Organic compounds and organic electroluminescence devices employing the same are provided. The organic compound has a chemical structure represented below:02-07-2013
20100038635Organic electroluminescent display device and manufacturing method of organic electroluminescent display device - The present invention provides a top-emission-type organic EL display device. In a top-emission-type organic EL display device which includes organic EL elements each of which is formed by stacking a reflective lower electrode, a function layer and a light-transmissive upper electrode in order, the upper electrode contains a plurality of fine particles which are made of a material different from a material of the upper electrode. The fine particles are preferably made of silica. A portion of the upper electrode may be provided below the fine particles and a portion of the upper electrode may be provided above the fine particles.02-18-2010
20100038632ELECTROLUMINESCENT DEVICE - An OLED with a donor which is doped metal quinolate in which the metal is a transition metal in the four or five valent state.02-18-2010
20100032661ORGANIC FIELD-EFFECT TRANSISTOR - An organic field-effect transistor includes between an organic semiconductor layer (02-11-2010
20130082250PHOTOELECTRIC CONVERSION FILM, PHOTOELECTRIC CONVERSION DEVICE AND COLOR IMAGE SENSOR HAVING THE PHOTOELECTRIC CONVERSION DEVICE - A blue color photoelectric conversion film includes: a p-type layer formed by depositing tetracene; a p,n-type layer formed by co-depositing tetracene and naphthalene- tetracarboxylic-dianhydride (“NTCDA”) on the p-type layer; and an n-type layer formed by depositing NTCDA on the p,n-type layer.04-04-2013
20130082249METHOD FOR MANUFACTURING ORGANIC LIGHT-EMITTING ELEMENT, ORGANIC LIGHT-EMITTING ELEMENT, ORGANIC DISPLAY DEVICE, ORGANIC LIGHT-EMITTING DEVICE, METHOD FOR FORMING FUNCTIONAL LAYER, FUNCTIONAL MEMBER, DISPLAY DEVICE, AND LIGHT-EMITTING DEVICE - A functional layer of an organic light-emitting element is formed by using an ink including a first solvent and a second solvent having equal or similar boiling points, and a functional material. The first solvent is such that an imitatively formed functional layer formed by replacing the second solvent with the first solvent, in a light-emitting region of an organic light-emitting element, is thicker at both end portions than at a central portion and top surfaces of the end portions are positioned higher than a top surface of the central portion. The second solvent is such that an imitatively formed functional layer formed by replacing the first solvent with the second solvent, in a light-emitting region of an organic light-emitting element, is thicker at a central portion than at both end portions and a top surface of the central portion is positioned higher than top surfaces of the end portions.04-04-2013
20130043460CARBAZOLE SERIAL COMPOUNDS - Disclosed is a carbazole serial compound, having a general formula as:02-21-2013
20130075714POLYMER, POLYMER COMPOSITION AND ORGANIC LIGHT-EMITTING DEVICE - Light-emitting composition comprising a host polymer and a light emitting dopant wherein the host polymer comprises conjugating repeat units and non-conjugating repeat units in a backbone of the polymer and wherein: the conjugating repeat units provide at least one conjugation path between repeat units linked thereto; and the non-conjugating repeat units comprise an at least partially saturated ring having at least one ring atom that breaks any conjugation path between repeat units linked to the non-conjugating repeat unit such that a highest occupied molecular orbital level of the polymer is further from vacuum level by at least 0.1 eV and/or a lowest unoccupied molecular orbital level of the polymer is closer to vacuum level by at least 0.1 eV as compared to a polymer in which the non-conjugating repeat units are absent.03-28-2013
20130075712Light-Emitting Device - A light-emitting device includes a first electrode area on a substrate and a functional light-emitting layer on the first electrode area. A second electrode area is disposed on the functional light-emitting layer. A light outlet layer is disposed in a radiation path of the functional light-emitting layer. The light outlet layer incorporates a number of optical elements whose distribution and/or geometrical shape vary across a surface of the light outlet layer.03-28-2013
20100044696THIN FILM TRANSISTOR AND LIQUID CRYSTAL DISPLAY - A thin film transistor is provided. The thin film transistor includes a substrate, a gate, a source/drain, an insulating layer, and a semiconductor active layer. The gate and the source/drain are respectively deposited on the substrate and are separated by the insulating layer on the substrate. The semiconductor active layer connects the source and the drain. The material of the semiconductor active layer is a semiconductor precursor which produces semiconductor property after being irradiated by a light source. A liquid crystal display which includes the above thin film transistor is also provided.02-25-2010
20100044695COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, fully secured of driving stability, and of simple constitution. Also disclosed is a compound useful for the fabrication of said organic EL device. The organic electroluminescent device comprises organic layers including a light-emitting layer disposed between an anode and a cathode which are piled one upon another on a substrate and said organic layers comprise a compound represented by general formula (1). A light-emitting layer containing a phosphorescent dopant is suitable for an organic layer comprising a compound represented by general formula (1). In general formula (1), X is CR or N; Ar02-25-2010
20100044694ITO film treated by nitrogen plasma and the organic luminescent device using the same - Disclosed are an Indium Tm Oxide (ITO) film, wherein nitrogen-containing compounds produced by reactions of nitrogen with at least one atom selected from the group consisting of In, Sn and O atoms which are constitutional elements of ITO, or deposited nitrogen-containing compounds are present on a surface of the ITO film; and a method for preparing an ITO film, comprising the step of treating a surface of the ITO film with nitrogen plasma. An organic elect roluminescent device using the ITO film provided by the present invention as an anode shows a low voltage, a high efficiency and a long lifetime.02-25-2010
20100044693ORGANIC EL LIGHT-EMITTING MATERIAL AND ORGANIC EL LIGHT-EMITTING ELEMENT - An organic EL light-emitting material and an organic EL light-emitting element using the same are provided. Between an anode and a cathode, there are provided a hole transport layer, a light-emitting layer constituted of an organic EL light-emitting material including at least one kind of metal pyrazole complex constituted of a metal ion that is a monovalent cation of a d10 group element and a pyrazole ligand that has a predetermined substituent at the whole or a part of 3, 4 and 5 sites, and an electron transport layer, in this order from the anode side.02-25-2010
20100044690ORGANIC EL DISPLAY DEVICE - An organic EL display device includes a first organic EL element which includes a first organic layer including a first light emission layer which emits the color of light in the first wavelength range and a hole blocking layer between a pixel electrode and a counter-electrode, a second organic EL element which includes a second organic layer including a second light emission layer which emits the color of light in the first wavelength range between a pixel electrode and the counter-electrode, the second organic EL element being thinner than the first organic EL element, and a third organic EL element which includes a third organic layer including the third light emission layer which emits the color of light in the first wavelength range between a pixel electrode and the counter-electrode, the third organic EL element being thicker than the first organic EL element.02-25-2010
20100044689ORGANIC EL DEVICE - A phosphorescent-emitting layer contains a phosphorescent host and a phosphorescent dopant for providing phosphorescence, and a fluorescent-emitting layer contains a fluorescent host and a fluorescent dopant for providing fluorescence. A charge blocking layer blocks electrons injected into the fluorescent host of the fluorescent-emitting layer from being injected toward the charge blocking layer from the fluorescent-emitting layer, and also injects holes into the fluorescent-emitting layer from the phosphorescent-emitting layer. A triplet energy gap Eg02-25-2010
20100044681Novel Anthracene Derivatives, Method for Preparation Thereof, and Organic Electronic Device Using the Same - The present invention relates to a novel anthracene derivative, a method for preparation thereof, and an organic electronic device using the same. The anthracene derivative according to the present invention can function as a hole injecting, hole transporting, electron injecting, electron transporting, or light emitting in an organic electronic device including an organic light emitting device, and in particular, used alone as a light emitting, or as a host or dopant in a host/dopant system. The organic electronic device according to the present invention exhibits excellent characteristics in terms of efficiency, drive voltage, life time, and stability.02-25-2010
20100044682CHARGE INJECTION LAYER FOR ELECTRO-OPTICAL DEVICES - The present invention relates to charge injection from metallic conductors to semiconductor or insulation materials based on organic or inorganic molecules and macromolecules with electrical or optical properties, and specifically to a new charge injection layer for electro-optical devices comprising a polymer with conjugated units and a salt mixed with the aforementioned polymer, characterized in that the oxidation state of the polymer is not modified when it is mixed with the salt. Despite the fact that there is no change in the oxidation state of the polymer, the polymer and salt mixture according to the invention makes it possible for a high enough number of charges to reach the optically active layer, such that the efficiency in the charge injection process is increased up to levels exceeding even those provided by the standard PEDOT.02-25-2010
20100044688ELECTROLUMINESCENT METAL COMPLEX - Metal complexes of the formula I or I′ [LDH]02-25-2010
20100044686MATERIAL FOR AN ORGANIC ELECTROLUMINESCENCE DEVICE AND AN ORGANIC ELECTROLUMINESCENCE DEVICE - A material for an organic electroluminescence device represented by the following formula (I):02-25-2010
20100044685ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME - An organic light emitting diode display including a substrate; a light blocking layer disposed on the substrate and having a semiconductor opening; a first semiconductor pattern disposed in the semiconductor opening; a gate insulating layer disposed on the light blocking layer and the first semiconductor pattern; a first gate electrode disposed on the gate insulating layer; a first source electrode electrically connected to the first semiconductor pattern; a first drain electrode spaced apart from the first source electrode; a protective insulating layer disposed on the first source electrode and the first drain electrode, the protective insulating layer having a contact portion; a pixel electrode disposed on the protective insulating layer contacting the first drain electrode through the contact portion; an emitting layer disposed on the pixel electrode; and a common electrode disposed on the emitting layer.02-25-2010
20100044684BLENDED POLYMER FETS - A method for forming a semiconductor body, the method comprising: forming a mixture of an organic semiconducting material and a binder material; causing the semiconducting material to at least partially solidify; and causing the binder material to crystallize in such a way as to cause the semiconducting material to at least partially segregate from the binder material.02-25-2010
20100044683Use of Square Planar Transition Metal Complexes as Dopant - The present invention relates to the use of a square planar transition metal complex as dopant, charge injection layer, electrode material or storage material.02-25-2010
20080296563Carbon nanotube field effect transistor - A nanotube-based flexible field effect transistor and its method of manufacture is provided. The field effect transistor according to the invention comprises at least two contact electrodes, respectively drain and source electrodes, an electrical conduction zone connected to the contact electrodes, said zone comprising a plurality of single-wall carbon nanotubes that are substantially aligned, a gate electrode for controlling the electric current circulating in said zone and a flexible substrate on which the contact and gate electrodes are deposited. The nanotube density in the conduction zone is strictly greater than 10 nanotubes per micrometer.12-04-2008
20120205644PHOTOVOLTAIC CELL - The present invention provides a photovoltaic cell having a large short-circuit current density and a large photoelectric conversion efficiency.08-16-2012
20120205641PHOTOVOLTAIC CELL - The present invention provides a photovoltaic cell having a large short-circuit current density and a large photoelectric conversion efficiency.08-16-2012
20120205635MONOAMINE COMPOUND, CHARGE TRANSPORT MATERIAL, COMPOSITION FOR CHARGE TRANSPORT FILM, ORGANIC ELECTROLUMINESCENT ELEMENT, ORGANIC EL DISPLAY, AND ORGANIC EL LIGHTING - A monoamine compound characterized by being represented by the following general formula (1).08-16-2012
20100102302ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device which can prevent the deterioration thereof attributed to moisture by preventing a desiccant from influencing organic electroluminescence elements is provided. The organic electroluminescence device includes: first and second substrates which are arranged to face each other in an opposed manner with a gap therebetween; organic electroluminescence elements which are formed on a first surface of the first substrate which faces the second substrate in an opposed manner; a desiccant which is formed on a second surface of the second substrate which faces the first substrate in an opposed manner; and a resin which is adhered to the first and second surfaces and covers the desiccant and the organic electroluminescence elements. The desiccant includes a portion which is arranged outside a region of the second surface which faces the organic electroluminescence elements in an opposed manner and surrounds the whole of the region, and the organic electroluminescence elements are isolated from the desiccant by way of the resin.04-29-2010
20100102301Organic light emitting display device - An organic light emitting display device. The organic light emitting display device includes a substrate having a pixel region in which pixels are formed and a non-pixel region in which a light sensor is formed, an insulating film formed on the substrate, a first electrode formed on the insulating film and formed of a reflective material reflecting light, the first electrode being formed on the entire surface of the insulating film except for a region between the pixels and a region over the light sensor, a pixel defining film exposing a region of the first electrode and formed on the insulating film, an organic light emitting layer formed on the exposed region of the first electrode, and a second electrode formed on the organic light emitting layer. The first electrode is formed to have a greater area than that of the organic light emitting layer.04-29-2010
20100102300Active Matrix Optical Device - An active matrix organic optical device comprising a plurality of organic thin film transistors and a plurality of pixels disposed on a common substrate, wherein a common bank layer is provided for the organic thin film transistors and the pixels, the common bank layer defining a plurality of wells, wherein some of the wells contain the organic semiconducting material of the organic thin film transistors therein and others of the wells contain organic optically active material of the pixels therein.04-29-2010
20100102304INVERTED ORGANIC PHOTOSENSITIVE DEVICES - The present disclosure relates to organic photosensitive optoelectronic devices grown in an inverted manner. An inverted organic photosensitive optoelectronic device of the present disclosure comprises a reflective electrode, an organic donor-acceptor heterojunction over the reflective electrode, and a transparent electrode on top of the donor-acceptor heterojunction.04-29-2010
20100096622ORGANIC ELECTROLUMINESCENCE ELEMENT - An organic EL element which has no layer that prevents penetration of holes and electrons to the counter electrode. The organic EL element includes: an anode, a hole injecting and transporting layer formed on the anode, a light emitting layer formed on the hole injecting and transporting layer, an electron injecting and transporting layer formed on the light emitting layer, and a cathode formed on the electron injecting and transporting layer. Ip04-22-2010
20100096626ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device includes a transistor having gate, source, and drain electrodes, and first electrode connected to one of the source or drain electrodes. The device also includes an emitting layer positioned on the first electrode and a second electrode positioned on the emitting layer. Each of the source and drain electrodes includes first, second, and third layers having different tapered angles. The first electrode may include a metallic layer and a conductive layer, with a tapered angle of the metallic layer being different from a tapered angle of the conductive layer.04-22-2010
20080197343Organic Field Effect Transistor Gate - An electronic device, in particular an RFID transponder, comprises at least one logic gate, in which the logic gate is formed from a plurality of layers, which are applied on a common substrate, which layers comprise at least two electrode layers and at least one of the layers, in particular an organic layer, forms a semiconductor layer which is applied as a liquid, and an insulator layer and wherein the logic gate comprises at least two differently constructed field effect transistors. The field effect transistors are formed from a plurality of functional layers applied to a carrier substrate by printing or blade coating.08-21-2008
20100051930LIGHT EMITTING TRANSISTOR - A main object of the present invention is to provide a static induction light emitting transistor having an organic EL element structure and a vertical FET structure which is possible to avoid a problem of the shielding of light and a problem of shielding of electric field by a gate electrode. The above object is achieved by providing a light emitting transistor 03-04-2010
20090159878ORGANIC THIN FILM TRANSISTOR - A thin film transistor comprising at least three terminals consisting of a gate electrode, a source electrode and a drain electrode; an insulator layer and an organic semiconductor layer on a substrate, which controls its electric current flowing between the source and the drain by applying a electric voltage across the gate electrode, wherein the organic semiconductor layer comprises a styryl derivative having a styryl structure expressed by C06-25-2009
20090159877ELECTROACTIVE MATERIALS - There is provided an electroactive material having Formula I06-25-2009
20090159876ORGANIC SEMICONDUCTOR MATERIAL AND ORGANIC FIELD EFFECT TRANSISTOR - Disclosed is an adequately stable organic semiconductor material which can be used in a coating process while having high regularity and crystallinity. For obtaining such an organic semiconductor material, there is used a compound wherein 6-20 five-membered and/or six-membered aromatic rings are bound. This compound contains a partial structure represented by the formula (1) below, while having a mobility of not less than 1.0×1006-25-2009
20090159875Producing Layered Structures With Semiconductive Regions or Subregions - In layered structures, channel regions and light-interactive regions can include the same semiconductive polymer material, such as with an organic polymer. A light-interactive region can be in charge-flow contact with a contacting electrode region, and a channel region can, when conductive, provide an electrical connection between the contacting electrode region and other circuitry. For example, free charge carriers can be generated in the light-interactive region, resulting in a capacitively stored signal level; the signal level can be read out to other circuitry by turning on a transistor that includes the channel region. In an array of photosensing cells with organic thin film transistors, an opaque insulating material can be patterned to cover a data line and channel regions of cells along the line, but not extend entirely over the cells' light-interactive regions.06-25-2009
20090159874Organic electroluminescent devices - The present invention relates to the improvement of organic electroluminescent devices, in particular blue-emitting devices, by using compounds of the formula (1)06-25-2009
20090159873FUNCTIONAL MOLECULAR DEVICE - A functional molecular device displaying its functions under the action of an electrical field is provided. A Louis base molecule, exhibiting positive dielectric constant anisotropy or exhibiting dipole moment along the long-axis direction of the Louis base molecule, is arrayed in the form of a pendant on an electrically conductive linear or film-shaped principal-axis molecule of a conjugated system, via a metal ion capable of acting as a Louis acid. The resulting structure is changed in conformation on application of an electrical field to exhibit its function. The electrically conductive linear or film-shaped principal-axis molecule and the Louis base molecule form a complex with the metal ion. On application of the electrical field, the Louis base molecule performs a swinging movement or a seesaw movement to switch the electrical conductivity of the principal-axis molecule. This molecule exhibits electrical characteristics which may be reversed depending on whether or not the molecule has been subjected to electrical field processing. A molecular device having a function equivalent to one of CMOS may be produced from one and the same material.06-25-2009
20100109000CHARGE INJECTION AND TRANSPORT LAYERS - Compositions for use in hole transporting layers (HTLs) or hole injection layers (HILs) are provided, as well as methods of making the compositions and devices fabricated from the compositions. OLED devices can be made. The compositions comprise at least one conductive conjugated polymer, at least one semiconducting matrix component that is different from the conductive conjugated polymer, and an optional dopant, and are substantially free of an insulating matrix component.05-06-2010
20100109001ORGANIC ELECTROLUMINESCENCE ELEMENT - In an organic electroluminescence device having a pair of electrodes and an organic medium which has a light emitting layer or a plurality of layers including the light emitting layer, contains a light emitting material formed with an organometallic complex compound having a heavy metal and is disposed between the pair of electrodes, the organic medium contains an amine derivative having a specific structure. The organic electroluminescence device exhibits a high efficiency of light emission even at a high luminance of several thousand cd/m05-06-2010
20100108997Novel organic electroluminescent compounds and organic electroluminescent device using the same - Provided are novel organic electroluminescent compounds, and organic electroluminescent devices comprising the same as electroluminescent material. Specifically, the organic electroluminescent compounds according to the present invention are represented by Chemical Formula (1):05-06-2010
20100108998LIGHT EMITTING DEVICE - The invention relates to a light emitting device (05-06-2010
20100108999PROCESS FOR PREPARING AN ELECTRONIC DEVICE - The invention relates to a process for preparing an electronic device using a protection layer, and to improved electronic devices prepared by this process, in particular organic field effect transistors (OFETs).05-06-2010
20100108992Light-emitting device - The present invention provides a light emitting device comprising at least an emissive layer existing between an anode and a cathode, which emits light by means of electric energy. The light emitting device contains a compound having a pyrromethene skeletal structure with a specific structure or a metal complex thereof and a naphthacene derivative, and thus the light emitting device has high luminance efficiency and excellent durability.05-06-2010
20100108990NITROGENOUS HETEROCYCLIC DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE DEVICE MAKING USE OF THE SAME - A nitrogenous heterocyclic derivative of specified structure; and an organic electroluminescence device comprising a negative electrode and a positive electrode and, interposed therebetween, one or two or more organic thin-film layers having at least a light emitting layer, wherein at least one of the organic thin-film layers contains the above nitrogenous heterocyclic derivative alone or as a component of mixture. Thus, there is provided an organic electroluminescence device capable of blue light emission realizing high emission brightness and luminous efficiency, and provided a novel nitrogenous heterocyclic derivative for realization of such an organic electroluminescence device.05-06-2010
20100108994ELECTROLUMINESCENT METAL COMPLEXES WITH BENZOTRIAZOLES - This invention relates to electroluminescent metal complexes with benzotriazoles of the formula (I), a process for their preparation, electronic devices comprising the metal complexes and their use in electronic devices, especially organic light emitting diodes (OLEDs), as oxygen sensitive indicators, as phosphorescent indicators in bioassays, and as catalysts.05-06-2010
20100108996COMPOSITION FOR ORGANIC THIN FILM TRANSISTOR, ORGANIC THIN FILM TRANSISTOR FORMED BY USING THE SAME, AND METHOD FOR FORMING THE ORGANIC FILM TRANSISTOR - Provided are a composition for organic thin film transistors including a material including an anthracenyl group and a cross-linker including a maleimide group, an organic thin film transistor formed by using the composition, and a method for manufacturing the same.05-06-2010
20100108991ORGANIC ELECTROLUMINESCENCE DEVICE, LIGHTING DEVICE AND DISPLAY DEVICE - Disclosed are an organic EL device having high luminous efficiency and long life, an illuminating device and a display device.05-06-2010
20100108993BLOCK COPOLYMER AND POLYMER LIGHT-EMITTING DEVICE - Disclosed is a block copolymer characterized by containing a block (A) containing two or more different repeating units respectively composed of a specific divalent heterocyclic group, and a repeating unit composed of an arylene group, and a block (B) containing a repeating unit composed of an arylene group and a repeating unit composed of a divalent aromatic amine residue. Also disclosed are a composition containing a solvent, a light-emitting material other than the block copolymer, a hole-transporting material other than the block copolymer, an electron-transporting material other than the block copolymer or a combination of two or more of them, in addition to the block copolymer; a light-emitting thin film characterized by containing the block copolymer; and a polymer light-emitting device characterized by having an anode, a cathode and an organic layer containing the block copolymer and arranged between the anode and the cathode.05-06-2010
20100108989ELECTROLUMINESCENT POLYMERS AND USE THEREOF - The present invention relates to polymers which contain novel structural units of the formula (1). The inventive materials exhibit better solubility and improved efficiency when used in a polymeric organic light-emitting diode.05-06-2010
20130134401DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE DISPLAY DEVICE - It is an object of the present invention to provide a technology for manufacturing a highly reliable display device at a low cost with high yield. In the present invention, a spacer is formed over a pixel electrode, thereby protecting the pixel electrode layer from a mask in formation of an electroluminescent layer. In addition, since a layer that includes an organic material that has water permeability is sealed in a display device with a sealing material and the sealing material and the layer that includes the organic material are not in contact, deterioration of a light-emitting element due to a contaminant such as water can be prevented. The sealing material is formed in a portion of a driver circuit region in the display device, and thus, the narrower frame margin of the display device can also be accomplished.05-30-2013
20130026461ORGANIC LED ELEMENT, TRANSLUCENT SUBSTRATE, AND METHOD FOR MANUFACTURING ORGANIC LED ELEMENT - The present invention provides an organic LED element having the significantly larger light emission area than conventional ones. The invention relates to an organic LED element, comprising: a transparent substrate; a light scattering layer; a transparent first electrode; an organic light-emitting layer; and a second electrode formed in this order, wherein the light scattering layer has a base material comprising a glass, and a plurality of scattering materials dispersed in the base material; the light scattering layer has side surfaces, and each of the side surfaces has a surface tilted at an angle larger than right angle from an upper surface on the first electrode side toward a bottom surface on the transparent substrate side; and the first electrode is placed so as to continuously cover the side surfaces.01-31-2013
20130026460Light-Emitting Element, Light-Emitting Device, and Electronic Device - Disclosed is a light-emitting element having a light-emitting layer which includes a first layer, a second layer, and a third layer provided in this order on an anode side between the anode and a cathode. The first layer has a hole-transporting property, the second layer has a bipolar property, and the third layer has an electron-transporting property, wherein the first layer contains a first fluorescent compound and a hole-transporting organic compound, the second layer contains a phosphorescent compound and a host material, and the third layer contains a second fluorescent compound and an electron-transporting organic compound. The light-emitting layer is also arranged so that the triplet-excitation energy of both the hole-transporting organic compound and the electron-transporting organic compound are greater than that of the host material. The use of the light-emitting layer with the above-mentioned structure enables production of a light-emitting element with improved luminous efficiency and reduced power consumption.01-31-2013
20130026459POLYMER COMPOUND - A photoelectric conversion device that contains a polymer compound having a structural unit represented by formula (1) has high photoelectric conversion efficiency.01-31-2013
20130026458CROSSLINKABLE COMPOSITION - To provide a composition (e.g., a coating composition) useful for forming an organic semiconductor having excellent conductivity, solvent resistance, heat resistance, durability, and other properties, and an organic semiconductor formed with the composition.01-31-2013
20130026457POLYMER BLEND, ORGANIC LIGHT-EMITTING DIODE INCLUDING POLYMER BLEND, AND METHOD OF CONTROLLING CHARGE MOBILITY OF EMISSION LAYER INCLUDING POLYMER BLEND - A polymer blend including a first polymer having a unit represented by Formula 1 and a second polymer having a unit represented by Formula 2:01-31-2013
20130026456ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display, which includes: a first electrode; a second electrode facing the first electrode; and an emission layer interposed between the first electrode and the second electrode. Herein the first electrode includes: a first layer including a material having a work function of about 4.0 eV or less and an electron injection material; and a second layer including a material having a resistivity of about 10 μΩcm or less. The first layer is disposed between the second layer and the emission layer.01-31-2013
20130026455HYBRID ORGANIC-INORGANIC THIN FILM AND PRODUCING METHOD OF THE SAME - The present disclosure relates to a hybrid organic-inorganic thin film producing method including an interlayer connection between an inorganic cross-linked layer and an organic polymer through a molecular layer deposition (MLD) method, a hybrid organic-inorganic thin film produced by the producing method, and an organic electronic device and a thin film transistor containing the hybrid organic-inorganic thin film.01-31-2013
20130026454PhotoSensor And Photodiode Therefor - According to example embodiments, a photodiode includes a photoelectric layer on a first electrode, a second electrode on the photoelectric layer, and a first phosphorescence layer on the second electrode.01-31-2013
20130026453Methods of Polymerizing Silanes and Cyclosilanes Using N-Heterocyclic Carbenes, Metal Complexes Having N-Heterocyclic Carbene Ligands, and Lanthanide Compounds - Compositions and methods for controlled polymerization and/or oligomerization of silane (and optionally cyclosilane) compounds, including those of the general formulae Si01-31-2013
20130026452HETEROLEPTIC IRIDIUM COMPLEXES AS DOPANTS - Novel phosphorescent heteroleptic iridium complexes with phenylpyridine and dibenzo-containing ligands are provided. Alkyl substitution at specific positions on the ligands gives rise to compounds with improved OLED properties, including saturated green emission.01-31-2013
20100019233SEMICONDUCTOR COMPOSITE FILM, METHOD FOR FORMING SEMICONDUCTOR COMPOSITE FILM, THIN FILM TRANSISTOR, METHOD FOR MANUFACTURING THIN FILM TRANSISTOR, AND ELECTRONIC APPARATUS - A semiconductor composite film includes a semiconductor thin film layer containing an organic semiconductor material, an insulating thin film layer formed from a polymer material phase-separated from the organic semiconductor material in the film thickness direction, and a fine particle material dispersed in at least one of the semiconductor thin film layer and the insulating thin film layer.01-28-2010
20090302311Diketopyrrolopyrrole polymers as organic semiconductors - The present invention relates to polymers comprising a repeating unit of the formula (I) and their use as organic semiconductor in organic devices, especially a diode, an organic field effect transistor and/or a solar cell, or a device containing a diode and/or an organic field effect transistor, and/or a solar cell. The polymers according to the invention have excellent solubility in organic solvents and excellent film-forming properties. In addition, high efficiency of energy conversion, excellent field-effect mobility, good on/off current ratios and/or excellent stability can be observed, when the polymers according to the invention are used in semiconductor devices or organic photovoltaic (PV) devices (solar cells).12-10-2009
20100044687ORGANIC FIELD-EFFECT TRANSISTORS WITH POLYMERIC GATE DIELECTRIC AND METHOD FOR MAKING SAME - A method for making an organic field-effect device (e.g. TFT or SC-FET device) is proposed, comprising the Steps of (a) depositing an polymeric dielectric with a repellency to detrimental molecules from Solution or from the vapor phase to form an insulating layer and (b) depositing an oligomer layer which is grown from the vapor phase, the oligomer layer being adjacent to the insulating layer in the completed device. Furthermore the correspondingly produced organic field effect devices are disclosed.02-25-2010
20090134383Electrode for Organic Transistor, Organic Transistor, and Semiconductor Device - It is an object of the present invention, in a case of using a conductive material as part of an electrode for an organic transistor, to provide an organic transistor having a structure whose characteristics are not controlled by the work function of the conductive material. Moreover, it is other objects of the present invention to provide an organic transistor having favorable carrier mobility and to provide an organic transistor which is excellent in durability. A composite layer containing an organic compound and an inorganic material is used for an electrode for an organic field effect transistor, that is, at least part of one of a source electrode and a drain electrode in the organic field effect transistor.05-28-2009
20130082251ELECTROACTIVE MATERIALS - There is disclosed a compound having Formula I or Formula I′:04-04-2013
20100025668ORGANIC TRANSISTOR AND METHOD FOR FABRICATING A DIELECTRIC LAYER OF SUCH A TRANSISTOR - The present invention relates to an organic transistor comprising a conductive element which forms a drain; a conductive element which forms a source located away from the drain; a conductive element which forms a gate having a surface which faces the drain and a surface which faces the source; a semiconducting layer which is in contact with the drain and the source; and a dielectric layer located between, firstly, the gate and, secondly, the source and the drain with the dielectric layer having a dielectric permittivity which varies depending on its thickness,02-04-2010
20100025661Luminescent material and organic electroluminescent device using the same - The subject of the present invention is to provide an emission material which contributes to high emission efficiency, low drive voltage, excellent heat resistance and long life in an organic electroluminescent device, particularly an emission material which is excellent in emission of blue color. Further, the subject is to provide an organic electroluminescent device using the above emission material. The above subjects can be achieved by an emission material represented by Formula (1) and an organic electroluminescent device comprising the same.02-04-2010
20130082247Light-Emitting Device - To provide a light-emitting device which can emit bright light without increasing the projected area of a light-emitting element and be manufactured with high yield. A light-emitting device of one embodiment of the present invention includes a plurality of projections; a first electrode formed along the plurality of projections; a layer containing a light-emitting organic compound formed along the plurality of projections and over the first electrode; and a second electrode formed along the plurality of projections and over the layer containing a light-emitting organic compound. Further, the plurality of projections each have a bottom surface having a side in contact with a bottom surface of an adjacent projection; a plurality of side surfaces each having a certain angle greater than 0° and less than or equal to 80° with respect to the bottom surface; and a vertex having a first continuously curved surface.04-04-2013
20130082246DISPLAY UNIT - A display unit having satisfactory emission characteristics can be produced more easily and stably. Organic light emitting devices comprise an organic compound layer including at least a first and a second light emitting layer common in the respective organic devices. A layer constituting the organic layer has the same thickness in all the organic devices. The first layer contains a first and a second light emission dopant which are different in an emission color, a light emission spectrum, and a light emitting position in a thickness direction. The second layer contains a third light emission dopant different from the first and the second dopant in the emission color and the light emission spectrum. In at least two kinds of dopants, a distance between the first electrode and the light emitting position in the thickness direction satisfies an optical constructive condition in optical interference.04-04-2013
20130082248ELECTROLUMINESCENT DEVICES BASED ON PHOSPHORESCENT IRIDIUM AND RELATED GROUP VIII METAL MULTICYCLIC COMPOUNDS - Disclosed herein are phosphorescent materials comprising a complex of a metal atom M selected from Ir, Pt, Rh, Pd, Ru and Os and at least one ligand L, wherein the ligand L is represented by formula (1). Also disclosed are organic electroluminescent devices including such phosphorescent materials.04-04-2013
20130082245TETRADENTATE PLATINUM COMPLEXES - Novel phosphorescent tetradentate platinum compounds of Formula I are provided. The complexes contain a dibenzo moiety, which allows for the creation of OLED devices with improved properties when compounds of Formula I are incorporated into such devices. Compounds of Formula I′ that comprise two ligands that contain a 5-membered carbocyclic or heterocyclic ring, one of which contains an imidazole ring with a twisted aryl group attached to N−1 and a second aromatic ring that is attached to the platinum via a carbon atom. These compounds may be advantageously used in OLEDs.04-04-2013
20130082244OLED DEVICES COMPRISING HOLLOW OBJECTS - Embodiments of the present disclosure include organic light emitting diode (OLED) devices having hollow objects configured to scatter otherwise trapped light out of the device, thereby improving the performance of the device. The hollow objects are dispersed in one or more organic layers of the OLED device. The hollow objects may have a similar refractive index to that of air, such that visible light emitted by the emissive layer may contact the hollow objects in the OLED device and may be scattered out of the device. In some embodiments, the hollow objects may be spherical or tubular, and may be sized to be larger than the visible light wavelength spectrum.04-04-2013
20100127246WHITE ORGANIC ELECTROLUMINESCENT ELEMENT AND LIGHTING DEVICE - Disclosed is a white light-emitting organic electroluminescent device, which is excellent in stability of emission chromaticity over a long operation period, while having high electrical efficiency, long life, excellent storage stability and excellent color rendering properties. Also disclosed is an illuminating device using such an organic electroluminescent device. Specifically disclosed is an organic electroluminescent device having a light-emitting layer between an anode and a cathode, which is characterized by comprising a light-emitting layer A having a maximum emission wavelength of not more than 480 nm and containing a phosphorescent dopant having a maximum emission wavelength of not more than 480 nm, and a light-emitting layer B arranged between the light-emitting layer A and the anode, which has a maximum emission wavelength of not less than 510 nm and contains a phosphorescent dopant. This organic electroluminescent device is also characterized in that the concentration of the phosphorescent dopant contained in the light-emitting layer A varies in the thickness direction of the light-emitting layer A. Also specifically disclosed is an illuminating device using such a white light-emitting organic electroluminescent device.05-27-2010
20100059741Light-Emitting Element, Light-Emitting Device, and Electronic Device - To provide a light-emitting element with high light emission efficiency, a long lifetime, and reduced driving voltage. To provide a light-emitting element including an anode, a cathode, and a plurality of light-emitting layers which are in contact with each other so that a stacked structure is formed, between the anode and the cathode, in which the plurality of light-emitting layers are formed with a first light-emitting layer which is close to the anode and a second light-emitting layer which is close to the cathode, the first light-emitting layer and the second light-emitting layer each include a host material, a hole-transporting material, and a light-emitting material, and the concentration of the hole-transporting material in the first light-emitting layer is higher than the concentration of the hole-transporting material in the second light-emitting layer.03-11-2010
20120261649Image Sensor - An example embodiment of the image sensor includes a light-sensing device including a first electrode, a second electrode disposed opposite to the first electrode, and a photoelectric conversion layer positioned between the first electrode and the second electrode. The photoelectric conversion layer includes a block copolymer including electron donating blocks and electron accepting blocks. The electron donating blocks are deposited together and connected to the first electrode and the second electrode. The electron accepting blocks are deposited together and connected to the first electrode and the second electrode. A color filter may be positioned on the second electrode of the light-sensing device.10-18-2012
20100065832LIGHT-EMITTING APPARATUS - [Problems] To make joints between light-emitting panel units (03-18-2010
20100065829POLYMER WRAPPED CARBON NANOTUBE NEAR-INFRARED PHOTOVOLTAIC DEVICES - A photovoltaic device includes a photoactive region disposed between and electrically connected to two electrodes where the photoactive region includes photoactive polymer-wrapped carbon nanotubes that create excitons upon absorption of light in the range of about 400 nm to 1400 nm.03-18-2010
20100065825Light-Emitting Component - The invention relates to a light-emitting device, in particular a light-emitting diode, with an arrangement of layers on a substrate, wherein the arrangement of layers has an anode contact and a cathode contact which are in electrical contact with a light-emitting layer stack arranged between the anode contact and the cathode contact which, on its part, comprises a polymer layer consisting of a polymer material and a low-molecular layer of vacuum-deposited small molecules of an organic material, and wherein the small molecules of the low-molecular layer are formed as donor molecules with an oxidation potential versus Fc/Fc03-18-2010
20130087779PROCESS AND MATERIALS FOR MAKING CONTAINED LAYERS AND DEVICES MADE WITH SAME - There is provided a process for forming a contained second layer over a first layer, including the steps: forming the first layer having a first surface energy; treating the first layer with a priming material to form a priming layer; exposing the priming layer patternwise with radiation resulting in exposed areas and unexposed areas; developing the priming layer to effectively remove the priming layer from the unexposed areas resulting in a first layer having a pattern of priming layer, wherein the pattern of priming layer has a second surface energy that is higher than the first surface energy; and forming the second layer by liquid depositions on the pattern of priming layer on the first layer.04-11-2013
20130087778ORGANIC ELECTROLUMINESCENCE ELEMENT AND METHOD FOR MANUFACTURING ORGANIC ELECTROLUMINESCENCE ELEMENT - Disclosed are: an organic electroluminescent element which has high power efficiency, excellent resistance to luminance decrease due to continuous operation and excellent storage stability at high temperatures, while being reduced in chromatically change of color developing light; and a method for manufacturing the organic electroluminescent element. Specifically disclosed is an organic electroluminescent element that has a positive electrode and a negative electrode on a supporting substrate, while comprising an organic layer, which contains at least one light-emitting layer, between the positive electrode and the negative electrode. The organic electroluminescent element is characterized in that at least one layer in the organic layer contains a crown ether compound and a compound having a dibenzofuran skeleton.04-11-2013
20130087776COMPOUND FOR ORGANIC PHOTOELECTRIC DEVICE AND ORGANIC PHOTOELECTRIC DEVICE INCLUDING THE SAME - A compound for an organic photoelectric device, the compound being represented by the following Chemical Formula 1:04-11-2013
20130087774ORGANIC LIGHT EMITTING DIODE LIGHTING EQUIPMENT - An organic light emitting diode lighting equipment includes a transparent substrate main body, a first electrode formed on the substrate main body, a subsidiary electrode formed on the first electrode to partition the first electrode at a predetermined distance, an organic emissive layer formed on the first electrode, and a second electrode formed on the organic emissive layer. The subsidiary electrode has an inclined lateral side facing toward the organic emissive layer.04-11-2013
20130087771ORGANIC MATERIALS AND ORGANIC ELECTROLUMINESCENT APPARATUSES USING THE SAME - Organic materials and organic electroluminescent apparatuses using the same are provided. The structural general formula of the materials is shown below, wherein Ar is selected from residues of C6-C30 fused-ring aromatic hydrocarbons, Ar04-11-2013
20130087773Light-Emitting Element, Light-Emitting Device, Electronic Device, Lighting Device, and Pyrene-Based Compound - A highly efficient light-emitting element capable of providing a plurality of emission colors is provided, which does not easily deteriorate and can minimize a decrease in external quantum efficiency even when a light-emitting layer has a stacked structure. A light-emitting device, an electronic device, and a lighting device which have low power consumption and long lifetime are provided. A light-emitting element includes a plurality of light-emitting layers stacked between a pair of electrodes. The light-emitting layers each contain a host material and a guest material. The guest materials of the light-emitting layers are substances which have different HOMO levels but have substantially the same LUMO levels and emit light of different colors. A light-emitting device, an electronic device, and a lighting device are fabricated using the light-emitting element.04-11-2013
20130087770Organic Light Emitting Display Device - An organic light emitting display device which includes a base member; an organic light emitting display unit disposed on the base member and configured to generate an image; a sealing layer configured to seal the organic light emitting display unit; a capping substrate disposed on the sealing layer and having a plurality of metal layers, one of the metal layers being in contact with the sealing layer and having at least one groove; and a moisture absorbent provided in the groove.04-11-2013
20130087772EMISSIVE COMPOUNDS FOR ORGANIC LIGHT-EMITTING DIODES - Disclosed herein are compounds comprising an optionally substituted (2-phenylpyridinato-N,C2′)(2,4-pentanedionato)Pt(II). Some embodiments provide a light-emitting device, comprising: an anode layer; a cathode layer; and a light-emitting layer positioned between, and electrically connected to, the anode layer and the cathode layer, wherein the light-emitting layer comprises a compound disclosed herein.04-11-2013
20130087769Organic Light Emitting Display Device - An organic light emitting display device which includes a base member; an organic light emitting display unit provided on one surface of the base member and configured to generate an image; an intermediate layer provided over the one surface of the base member and formed to be in contact with the organic light emitting display unit; and a capping member including a bulkhead member and a first member, wherein one surface of the first member is in contact with the intermediate layer, and the bulkhead member is protruded from an opposite surface of the first member to define a plurality of capping areas.04-11-2013
20130087768HETEROCYCLIC COMPOUND, ORGANIC LIGHT-EMITTING DIODE COMPRISING THE HETEROCYCLIC COMPOUND, AND FLAT PANEL DISPLAY DEVICE COMPRISING THE ORGANIC LIGHT-EMITTING DIODE - A heterocyclic compound represented by Formula 1 below, an organic light-emitting diode including the same, and a flat panel display device including the organic light-emitting diode:04-11-2013
20120181530MATERIAL FOR ORGANIC ELECTRONICS, ORGANIC ELECTRONIC ELEMENT, ORGANIC ELECTROLUMINESCENT ELEMENT, DISPLAY ELEMENT USING ORGANIC ELECTROLUMINESCENT ELEMENT, ILLUMINATING DEVICE, AND DISPLAY DEVICE - Provided is a material for organic electronics which can produce an organic electronic element capable of lowering the driving voltage or capable of performing stable driving for a long time. The material for organic electronics contains at least an ionic compound and a compound having a charge transporting unit (hereinafter, referred to as charge transporting compound), and the ionic compound is composed of a counter cation and a counter anion, while the counter cation is any one kind or two or more kinds selected from H07-19-2012
20120181529LAYERED STRUCTURE, POLYMER, ELECTROLUMINESCENT DEVICE, AND PHOTOELECTRIC CONVERSION DEVICE - Provided is a layered structure having a first electrode, a second electrode, a light emitting layer or a charge separation layer located between the first electrode and the second electrode, and a layer located between the light emitting layer or the charge separation layer and the first electrode and containing a polymer having a repeating unit containing one or more ionic groups selected from two specific groups and one or more specific polar groups. Also provided is a polymer having, as the repeating unit containing one or more ionic groups selected from two specific groups and one or more specific polar groups, one or more repeating units selected from four specific repeating units containing an aromatic group. The layered structure of the present invention provides an electroluminescent device capable of emitting light at a high luminance and a photoelectric conversion device having a high photoelectric conversion efficiency.07-19-2012
20120181528MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE, AND ORGANIC ELECTROLUMINESCENCE DEVICE - A material for an organic electroluminescence device containing at least phosphorescent metal complex A and phosphorescent metal complex B, metal complex A and metal complex B are both organic metal complexes containing a metal having an atomic weight of 40 or more and a ligand, metal complex A has a specific structure, and metal complex B has the same structure with metal complex A except that one or more atoms directly bonding to ligand structures are substituted with atoms belonging to the same group of the atoms and having a greater atomic weight, and ratio of the content of metal complex B to the content of metal complex A is 0.005% by mass or more and 2% by mass or less.07-19-2012
20120181527MATERIAL FOR A PHOTOACTIVE LAYER IN ORGANIC PHOTODIODES, USE THEREFOR, AND AN ORGANIC PHOTODIODE - A photoactive layer in organic photodiodes includes organic photoactive dyes, including squaraines with donor-substituted aromatic substituents as the electron donor component, used as an alternative to polymer hold conductors for bulk heterojunctions typically found in the organic active layer of organic photodiodes.07-19-2012
20120181526ORGANIC EL DEVICE - The present invention provides an organic EL device. The organic EL device is provided with a first substrate, an anode that is located on the first substrate, a light emitting layer that is located on the anode, a partition wall that is formed of an insulating material and partitions the light emitting layer, a cathode that covers the light emitting layer and extends on the partition wall, and a second substrate that is superimposed onto the first substrate via a seal member, and in this structure, the cathode has a multilayer structure including an electron injection layer that injects electrons to the light emitting layer, and at least one electrically conductive layer, and the electron injection layer covers the light emitting layer, and the at least one electrically conductive layer covers the electron injection layer.07-19-2012
20120181525ORGANIC EL DEVICE - An organic EL device (07-19-2012
20120181524NITROGEN-CONTAINING AROMATIC HETEROCYCLIC DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A nitrogen-containing aromatic heterocyclic derivative represented by the following formula, wherein X07-19-2012
20120181522LIGHT EMITTING DEVICE - The present invention provides a light-emitting device comprising a first light-emitting element that emits red light, a second light-emitting element that emits green light, a third light-emitting element that emits blue light, and a color filter, where the color filter comprises a first coloring layer that selectively transmits red light, a second coloring layer that selectively transmits green light, and a third coloring layer that selectively transmits blue light, the first to third light-emitting elements respectively correspond to the first to third coloring layers, wherein each of the first to third light-emitting elements has a first electrode, an electroluminescent layer on the first electrode, and a second electrode on the electroluminescent layer, and wherein the electroluminescent layer includes a layer in contact with the second electrode, and a metal oxide or a benzoxazole derivative is included in the layer in contact with the second electrode.07-19-2012
20120181521AROMATIC AMINE DERIVATIVE AND ELECTROLUMINESCENCE DEVICE USING THE SAME - Provided are a novel aromatic amine derivative having a specific structure and an organic electroluminescence device in which an organic thin layer comprising a single layer or plural layers including a light emitting layer is interposed between a cathode and an anode, wherein at leas one layer of the above organic thin layer contains the aromatic amine derivative described above in the form of a single component or a mixed component. Thus, the organic electroluminescence device is less liable to be crystallized in molecules, improved in a yield in producing the organic electroluminescence device and extended in a lifetime.07-19-2012
20120181520CONDENSED-CYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DIODE INCLUDING THE SAME - A condensed-cyclic compound represented by Formula 1 below, and an organic light-emitting diode including the condensed-cyclic compound.07-19-2012
20120181519Organic Semiconductor Device And Method Of Manufacturing The Same - An organic semiconductor device includes an organic semiconductor, an electrode electrically connected to the organic semiconductor, and a self-assembled monolayer positioned between the organic semiconductor and the electrode, the self-assembled monolayer including a monomer having an anchor group at one end and an ionic functional group at another end.07-19-2012
20120181518ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device includes: an anode; a cathode; and at least hole transporting layer and emitting layer both provided between the anode and the cathode. The hole transporting layer contains a hole transporting material. The emitting layer is adjacent to the hole transporting layer, and contains a first host material, a second host material and a phosphorescent dopant material. An ionization potential IP(HT) of the hole transporting material, an ionization potential IP(h07-19-2012
20120181517PROTEIN PHOTOELECTRIC CONVERSION DEVICE, PHOTOELECTRIC CONVERSION SYSTEM, PROTEIN PHOTOELECTRIC CONVERSION DEVICE MANUFACTURING METHOD, PHOTOELECTRIC CONVERSION SYSTEM MANUFACTURING METHOD AND PROTEIN-IMMOBILIZED ELECTRODE - A protein photoelectric conversion device including a gold electrode; and a substance selected from the group consisting of a metal-substituted cytochrome b07-19-2012
20120181516LIGHT-ABSORBING MATERIAL AND PHOTOELECTRIC CONVERSION ELEMENT - The present invention provides a light-absorbing material capable of providing high photoelectric conversion efficiency when applied to a photoelectric conversion element.07-19-2012
20120181515ORGANIC LIGHT-EMITTING DIODE, DISPLAY AND ILLUMINATING DEVICE - According to one embodiment, there is provided an organic light-emitting diode including an anode and a cathode which are arranged apart from each other, and an emissive layer interposed between the anode and the cathode and including a host material and an emitting dopant. The emitting dopant includes a compound represented by the formula (1):07-19-2012
20120181514NOVEL COMPOUND AND ORGANIC LIGHT-EMITTING DIODE, DISPLAY AND ILLUMINATING DEVICE USING THE COMPOUND - According to one embodiment, there is provided a compound represented by Formula (1):07-19-2012
20120181513POLYMER AND ORGANIC LIGHT-EMITTING DEVICE COMPRISING THE SAME - A polymer and an organic light-emitting device including the polymer.07-19-2012
20120181512Organic Transistor with Fluropolymer Banked Crystallization Well - A method is provided for fabricating a printed organic thin film transistor (OTFT) with a patterned organic semiconductor using a fluropolymer banked crystallization well. In the case of a bottom gate OTFT, a substrate is provided and a gate electrode is formed overlying the substrate. A gate dielectric is formed overlying the gate electrode, and source (S) and drain (D) electrodes are formed overlying the gate dielectric. A gate dielectric OTFT channel interface region is formed between the S/D electrodes. A well with fluropolymer containment and crystallization banks is then formed, to define an organic semiconductor print area. The well is filled with an organic semiconductor, covering the S/D electrodes and the gate dielectric OTFT channel interface. Then, the organic semiconductor is crystallized. Predominant crystal grain nucleation originates from regions overlying the S/D electrodes. As a result, an organic semiconductor channel is formed, interposed between the S/D electrodes.07-19-2012
20100006832DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - According to an embodiment of the present invention, a manufacturing method of a display device includes forming a plurality of gate wires comprising a gate electrode on an insulating substrate, forming an electrode layer comprising a source electrode and a drain electrode spaced apart from each other to define a channel region on the gate electrode interposed therebetween, forming a first barrier wall having a first opening for exposing the channel region, a portion of the source electrode, and a portion of the drain electrode on the electrode layer where the first barrier wall has a surface, forming a shielding film to cover the channel region inside the first opening, treating the surface of the first barrier wall, removing the shielding film, and forming an organic semiconductor layer inside the first opening.01-14-2010
20100006829Diode employing with carbon nanotube - A diode includes an organic composite plate, a pressing element, a first electrode, and a second electrode. The organic composite plate has a plurality of carbon nanotubes uniformly distributed therein and includes a first portion and a second portion opposite to the first portion. The pressing element is disposed on the first portion of the organic composite plate. The first and second electrodes are electrically connected to the first and second portions of the organic composite plate, respectively. The diode employed with the carbon nanotubes has a changeable characteristic, such as voltage, current, via controlling the pressure applied by the pressing element.01-14-2010
20100006828ORGANIC ELECTROLUMINESCENCE ELEMENT - The invention provides an organic electroluminescence element which comprises a hole transporting layer which comprises a tris(p-terphenyl-4-yl)amine represented by the general formula (I)01-14-2010
20100006827Electroluminescent Device - An electroluminescent device comprises, in order: an opaque semiconducting substrate (01-14-2010
20100006826INCREASING YIELD IN OFETS BY USING A HIGH-K DIELECTRIC LAYER IN A DUAL DIELECTRIC LAYER - Dielectric layer pinholes in OFET structures are addressed through the addition of a high-K dielectric layer to eliminate the effects of shorts in the dielectric layer. The original dielectric layer is maintained such that the semiconductor/dielectric interface remains unchanged. The high-K dielectric layer contributes material to the gate dielectric to plug up pinholes in the original dielectric, but does not contribute significant capacitance due to the high dielectric constant of the additional dielectric layer. The incidence of pinholes in the dielectric layer is reduced without significantly affecting the performance of the OFET transistor.01-14-2010
20100006830Organic semiconductor compound based on 2,7-bis-(vinyl)[1]benzothieno[3,2-b]benzothiophene, organic semiconductor thin film and transistor using the same and methods of forming the same - An organic semiconductor compound based on a 2,7-bis-(vinyl)[1]benzothieno[3,2-b]benzothiophene backbone, an organic semiconductor thin film, an organic thin film transistor and methods of forming the same are provided, the organic semiconductor compound including a vinyl group derived from a phosphonate derivative represented by Formula 1 and an aldehyde derivative represented by Formula 2 below:01-14-2010
20100327267ORGANIC ELECTROLUMINESCENCE DEVICE AND PRODUCTION METHOD THEREOF - An organic electroluminescent device comprising an anode, a first layer disposed on the anode, a second layer containing a light emitting material, and a cathode, wherein the first layer is a layer formed on the anode by forming a non-treated layer containing a compound having a group reactive to a group present on the surface of the anode and subjecting the non-treated layer to a UV/ozone treatment, and the first layer has an average thickness of 10 nm or less.12-30-2010
20100327265BIPIRIDINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE ELEMENT CONTAINING THE SAME - The present invention provides a new bipyridine derivative which is suitable for an electron transport material of an organic electronics element and which has bipyridyl central rings as a core, and further provides an organic electroluminescence element containing the derivative.12-30-2010
20100327262OPTOELECTRONIC DEVICE AND METHOD OF FABRICATING THE SAME - An optoelectronic device is disclosed. The device comprises one or more modified photocatalytic units, and a semiconductor surface. The modified photocatalytic unit is attached to the semiconductor surface such that when light is absorbed by the photocatalytic unit, an electric field is generated at sufficient amount to induce charge carrier locomotion within the semiconductor. In some embodiments a plurality of photocatalytic unit is attached to the semiconductor surface in oriented manner. The optoelectronic device can be operative in dry environment.12-30-2010
20130048967Light-Emitting Device, Electronic Device, Lighting Device, and Method for Manufacturing the Light-Emitting Device - A light-emitting device in which deterioration of an organic EL element due to impurities such as moisture or oxygen is suppressed is provided. The light-emitting device includes a first substrate and a second substrate facing each other, a light-emitting element provided over the first substrate, a first sealant provided so as to surround the light-emitting element, and a second sealant provided so as to surround the first sealant. One of the first sealant and the second sealant is a glass layer and the other is a resin layer. A dry agent is provided in a first space surrounded by the first sealant, the second sealant, the first substrate, and the second substrate, or in the resin layer. The light-emitting element is included in a second space surrounded by the first sealant, the first substrate, and the second substrate.02-28-2013
20130048973Organic Light-Emitting Diode Comprising At Least Two Electroluminescent Layers - The invention provides an organic light-emitting diode which includes at least two electroluminescent layers (ELR, ELB), both of which are fluorescent or phosphorescent and emit at different wavelengths, as well as a hole- and electron-conducting buffer layer (T) arranged between the electroluminescent layers. The buffer layer is a bi-layer having an electron-transport layer (T02-28-2013
20130048972Method of Manufacturing Laminated Body and Laminated Body - A laminated body includes a lower electrode formed on a substrate and a basic insulating film which is formed above the lower electrode and covers the lower electrode on the substrate, in which the lower electrode has a film thickness reduction section in which the film thickness of the lower electrode in a portion which is not covered by the basic insulating film is smaller than the film thickness of the lower electrode in a portion which is covered by the basic insulating film in the lower electrode.02-28-2013
20130048961ORGANIC LIGHT EMITTING DEVICE WITH ENHANCED EMISSION UNIFORMITY - A light emitting device with high light emission uniformity is disclosed. The device contains a first electrically conductive layer having a positive polarity and an electrically conductive uniformity enhancement layer in contact with the first electrically conductive layer. The device also contains a second electrically conductive layer having a negative polarity and a light-emitting structure situated between the first and the second electrically conductive layers. The light-emitting structure contains an organic material in direct contact with the second electrically conductive layer. The uniformity enhancement layer transmits essentially all wavelengths of light emitted by the light-emitting structure. Compared to devices lacking a uniformity enhancement layer, the device exhibits higher spatial uniformity in luminance and in color spectrum.02-28-2013
20130048966CONDENSED POLYCYCLIC COMPOUND AND ORGANIC LIGHT EMITTING ELEMENT INCLUDING THE SAME - An organic light emitting element which realizes a high efficiency and a long light emission life is provided. An organic compound represented by the general formula [1] described in claim 02-28-2013
20130048965CONDENSED POLYCYCLIC COMPOUND AND ORGANIC LIGHT EMITTING ELEMENT INCLUDING THE SAME - A condensed polycyclic compound which emits green light and which has a high chemical stability and an organic light emitting element including the same are provided. A condensed polycyclic compound represented by the general formula [1] or [2] described in claim 02-28-2013
20130048964Light-Emitting Element, Light-Emitting Device, Electronic Device, Lighting Device, and Novel Organic Compound - A light-emitting element includes an EL layer between a pair of electrodes. The EL layer contains a first compound and a second compound. The first compound is a phosphorescent iridium metal complex having a LUMO level of greater than or equal to −3.5 eV and less than or equal to −2.5 eV, and the second compound is an organic compound having a pyrimidine skeleton. The light-emitting element includes an EL layer between a pair of electrodes. The EL layer contains a first compound and a second compound. The first compound is a phosphorescent iridium metal complex having a diazine skeleton, and the second compound is an organic compound having a pyrimidine skeleton.02-28-2013
20130048963Cyclometallated Tetradentate Pt (II) Complexes - Novel phosphorescent tetradentate platinum (II) compounds are provided. The compounds contain an isoimidazole moiety, optionally further substituted with a twisted aryl. These compounds may be advantageously used in OLEDs.02-28-2013
20130048962ORGANIC ELECTROLUMINESCENT ELEMENT, METHOD FOR PRODUCING SAME, AND DEVICE FOR PRODUCING SAME - Problems to be solved of the present invention are to provide a method for producing an organic electroluminescent device capable of producing an organic electroluminescent device having long lifetime, an organic electroluminescent device having long lifetime, a planar light source, an illumination apparatus and a display apparatus each having long lifetime. Means for solving the problem is a method for producing an organic electroluminescent device comprising a first electrode, a second electrode and a light emitting layer arranged between the first and second electrodes, the light emitting layer containing an organic film, the method comprising a step of applying a solution containing an organic compound onto the surface of a layer which is to be located just below the light emitting layer, to form the organic film in a dark place.02-28-2013
20130048955HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE CONTAINING THE SAME - A heterocyclic compound represented by one of Formulae 1-4 below and an organic light-emitting device including an organic layer that includes the heterocyclic compound. The heterocyclic compounds have excellent light-emitting characteristics and excellent electron transporting characteristics, and thus may be used as electron injecting materials or electron transporting materials suitable for all-color fluorescent and phosphorescent devices, such as red, green, blue, and white fluorescent and phosphorescent devices. In particular, the heterocyclic compounds are efficiently used as light-emitting materials of green, blue, and while fluorescent devices. By using the heterocyclic compounds, organic light-emitting devices having high efficiency, low driving voltage, high brightness, and long lifespan may be prepared.02-28-2013
20130048956COMPOUND FOR ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICES USING THE SAME - The present invention provides a compound of formula (I) for an organic electroluminescent device:02-28-2013
20110001134COMPOSITION FOR CHARGE-TRANSPORTING FILM AND ION COMPOUND, CHARGE-TRANSPORTING FILM AND ORGANIC ELECTROLUMINESCENT DEVICE USING SAME, AND METHOD FOR MANUFACTURING ORGANIC ELECTROLUMINESCENT DEVICE AND METHOD FOR PRODUCING CHARGE-TRANSPORTING FILM - An excellent composition for a charge-transport film, which can be used to produce an organic electroluminescence device having excellent heat-resistant property, high hole injection/transport capacity and capable of functioning at a low voltage, is proposed.01-06-2011
20110001130ORGANIC EL ELEMENT AND SOLUTION CONTAINING ORGANIC EL MATERIAL - An organic electroluminescence device (01-06-2011
20130112965ORGANIC LIGHT-EMITTING DEVICE MATERIAL HAVING DIBENZOSUBERONE SKELETON - The present invention provides an organic light-emitting device material that exhibits high emission efficiency and is used in an organic light-emitting device having a low driving voltage. The organic light-emitting device material is represented by general formula (1) below:05-09-2013
20130048974ORGANIC LUMINESCENT MATERIALS, COATING SOLUTION USING SAME FOR ORGANIC EMITTING LAYER, ORGANIC LIGHT EMITTING DEVICE USING COATING SOLUTION AND LIGHT SOURCE DEVICE USING ORGANIC LIGHT EMITTING DEVICE - It is an object of the present invention to provide an organic light-emitting device which can emit white light by easily controlling dopant concentrations. The organic light-emitting device has a first electrode (02-28-2013
20090140239COMPOUNDS FOR ORGANIC SEMICONDUCTOR DEVICE HAVING TRIAZINE GROUP, ORGANIC SEMICONDUCTOR THIN FILM AND ORGANIC SEMICONDUCTOR DEVICE COMPRISING THE SAME, AND METHODS OF PREPARING THEM - A compound for organic semiconductor devices having a triazine group, an organic semiconductor thin film and an organic semiconductor device comprising the same, and methods of preparing them are provided. The compound for organic semiconductor devices is represented by the following Formula:06-04-2009
20100001261Organic transistor having a non-planar semiconductor-insulating layer interface - Organic transistors having a nonplanar interface between the insulating layer and the semiconductor layer are provided, along with methods for manufacturing.01-07-2010
20100001265Thin film transistor, method of fabricating the same, and organic light emitting diode display device including the same - The thin film transistor for an organic light emitting diode includes a crystalline semiconductor pattern on a substrate, a gate insulating layer on the crystalline semiconductor pattern having first source and drain contact holes, a gate electrode on the gate insulating layer, the gate electrode being between the first source and drain contact holes, an interlayer insulating layer covering the gate electrode, having second source and drain contact holes, source and drain electrode in the second source and drain contact holes, insulated from the gate electrode and electrically connected to the crystalline semiconductor pattern by first and second metal patterns in the first source and drain contact holes, respectively, wherein the gate electrode, the first metal pattern in the first source contact hole and the second metal pattern in the first drain contact hole are each made of a same material.01-07-2010
20130048971HETEROCYCLIC COMPOUND, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - Provided is a novel heterocyclic compound which can be used in a light-emitting layer of a light-emitting element as a host material in which a light-emitting substance is dispersed. A heterocyclic compound represented by a general formula (G1) is provided. Any one of R02-28-2013
20130048968DISPLAY APPARATUS AND IMAGE PICKUP APPARATUS - A first light-emitting layer of a first organic electroluminescent element is disposed in common to a second organic electroluminescent element, a second light-emitting layer of the second organic electroluminescent element is disposed in contact with the first light-emitting layer and in the cathode side, and the first light-emitting layer is a light-emitting layer having an electron trapping property.02-28-2013
20100133526ORGANIC THIN FILM TRANSISTOR AND FLAT PANEL DISPLAY DEVICE INCLUDING THE SAME - Provided are an organic thin film transistor providing smoother movement of holes between a source electrode or a drain electrode and a p-type organic semiconductor layer, and a flat panel display device including the organic thin film transistor. The organic thin film transistor includes a substrate, a gate electrode disposed on the substrate, a p-type organic semiconductor layer insulated from the gate electrode, a source electrode and a drain electrode separated from each other and insulated from the gate electrode, and a hole injection layer interposed between the source and drain electrodes and the p-type organic semiconductor layer.06-03-2010
20100133521ORGANIC LIGHT-EMITTING DEVICE AND DISPLAY APPARATUS - Provided is an organic light-emitting device having a high emission efficiency and a long lifetime. The organic light-emitting device (06-03-2010
20100133524RED PHOSHORESCENT COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - A red phosphorescent compound includes a host material being capable of transporting an electron or a hole; and a dopant material represented by following Formula 1:06-03-2010
20100133518GATE INSULATING FILM FORMING AGENT FOR THIN-FILM TRANSISTOR - There is provided a novel gate insulating film forming material in consideration of not only initial electric properties immediately after the production of a gate insulating film, but also electric properties after other steps are performed while producing a thin-film transistor using the gate insulating film, and even reliability in the electric properties of the produced element. A gate insulating film forming agent for a thin-film transistor comprising an oligomer compound or a polymer compound, both of which contain a repeating unit having a triazinetrione ring containing a hydroxyalkyl-containing group as a substituent on a nitrogen atom, and a solvent; a gate insulating film produced from the gate insulating film forming agent; a thin-film transistor having the gate insulating film; and a method for producing the gate insulating film or thin-film transistor.06-03-2010
20090039341Method for the Manufacturing of a Non-Volatile Ferroelectric Memory Device and Memory Device Thus Obtained - The present invention relates to non-volatile ferroelectric memory devices (02-12-2009
20090090905MOLECULAR DEVICE, SINGLE-MOLECULAR OPTICAL SWITCHING DEVICE, FUNCTIONAL DEVICE, MOLECULAR WIRE, AND ELECTRONIC APPARATUS USING FUNCTIONAL DEVICE - A molecular device including: at least one molecule of zinc cytochrome c; in which an electron or a hole is transferred within the at least one molecule of zinc cytochrome c bar utilizing transition of an electron between molecular orbitals of the at least one molecule of zinc cytochrome c. The molecular orbitals, for example, are a first molecular orbital localized in a first amino acid residue of the at least one molecule of zinc cytochrome c, and a second molecular orbital which is localized in a second amino acid residue of the at least one molecule of zinc cytochrome c and which has a maximum transition probability per unit time with respect to the first molecular orbital. In this case, the electron or the hole is transferred between the first amino acid residue and the second amino acid residue.04-09-2009
20090302312ORGANIC THIN FILM TRANSISTOR, METHOD OF FABRICATING THE SAME AND ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE HAVING THE SAME - An organic thin film transistor, a method of fabricating the same, and an organic light emitting diode (OLED) display device having the same. The organic thin film transistor includes a substrate, a buffer layer disposed on the substrate, a gate electrode disposed on the buffer layer, a gate insulating layer disposed on the gate electrode, an organic semiconductor layer disposed on the gate insulating layer, source and drain electrodes disposed on the gate insulating layer and electrically connected with the organic semiconductor layer, and a passivation layer formed of a polymer composite and disposed on the organic semiconductor layer.12-10-2009
20090302310Short Channel Vertical FETs - A vertical field effect transistor (FET) comprises a gate electrode and a first electrode layer having a dielectric layer interposed between these electrodes and a semiconducting active layer electrically coupled to the first electrode. The active layer and the dielectric layer sandwich at least a portion of the first electrode where at least one portion of the active layer is unshielded by the first electrode such that the unshielded portion is in direct physical contact with the dielectric layer. A second electrode layer is electrically coupled to the active layer where the second electrode is disposed on at least a portion of the unshielded portion of the active layer such that the second electrode can form electrostatic fields with the gate electrode upon biasing in unscreened regions near the first electrode.12-10-2009
20120217492ORGANIC COMPOUND, ORGANIC ELECTRONIC DEVICE USING SAME, AND TERMINAL FOR SAME - Disclosed are an organic compound, an organic electronic device using the same, and a terminal thereof.08-30-2012
20120217491COMPOSITION FOR ANODE BUFFER LAYER, HIGH-MOLECULAR WEIGHT COMPOUND FOR ANODE BUFFER LAYER, ORGANIC ELECTROLUMINESCENCE ELEMENT, AND PRODUCTION PROCESS AND USES OF THE SAME - There is provided a material for an anode buffer layer which permits the use of an organic solvent as a solvent of an anode buffer layer-forming solution, and is capable of forming an anode buffer layer that does not dissolve even when coated with a luminescent layer-forming material solution containing an organic solvent as a solvent, and which is capable of producing an organic EL element having high electrical power efficiency and long life.08-30-2012
20120217489Light-Emitting Element, Light-Emitting Device, and Electronic Device - The light-emitting element includes: a light-emitting layer and a layer for controlling the movement of carriers between a first electrode and a second electrode. The layer for controlling the movement of carriers contains a first organic compound and a second organic compound, and is provided between the light-emitting layer and the second electrode. The first organic compound has an electron transporting property, and the second organic compound has an electron trapping property. The weight percent of the first organic compound is higher than that of the second organic compound. The light-emitting layer emits light when a voltage is applied such that the potential of the first electrode is higher than that of the second electrode.08-30-2012
20120217487Light-Emitting Device - A light-emitting element includes a light-emitting layer including a guest, an n-type host and a p-type host between a pair of electrodes, where the difference between the energy difference between a triplet excited state and a ground state of the n-type host (or p-type host) and the energy difference between a triplet excited state and a ground state of the guest is 0.15 eV or more. Alternatively, in such a light-emitting element, the LUMO level of the n-type host is higher than the LUMO level of the guest by 0.1 eV or more, or the HOMO level of the p-type host is lower than the HOMO level of the guest by 0.1 eV or more.08-30-2012
20120217486LIGHT-EMITTING LAYER AND LIGHT-EMITTING ELEMENT - To provide a highly efficient organic light-emitting element. An extremely thin layer (a monomolecular film or the like) containing an organic light-emitting material such as an iridium complex is provided between a layer of an n-type organic material (an organic material having a high electron-transport property) and a layer of a p-type organic material (an organic material having a high hole-transport property). In a structure described above, in a layer of the organic light-emitting material, electrons are injected from the LUMO of the n-type organic material to the LUMO of the organic light-emitting material, and holes are injected from the HOMO of the p-type organic material to the HOMO of the organic light-emitting material, whereby the organic light-emitting material is brought into an excited state and emits light.08-30-2012
20120217485NOVEL ORGANIC ELECTROLUMINESCENT COMPOUNDS AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Provided are novel organic electroluminescent compounds and organic electroluminescent devices using the same. Since the organic electroluminescent compound exhibits good luminous efficiency and excellent life property compared to the existing material, it may be used to manufacture OLED devices having superior operation life and consuming less power due to improved power efficiency.08-30-2012
20120217482SEMICONDUCTOR MATERIALS PREPARED FROM DITHIENYLVINYLENE COPOLYMERS - Disclosed are new semiconductor materials prepared from dithienylvinylene copolymers with aromatic or heteroaromatic π-conjugated systems. Such copolymers, with little or no post-deposition heat treatment, can exhibit high charge carrier mobility and/or good current modulation characteristics. In addition, the polymers of the present teachings can possess certain processing advantages such as improved solution-processability and low annealing temperature.08-30-2012
20110006296LIGHT EMITTING DEVICE - A light emitting device (01-13-2011
20110006295COMPOUNDS HAVING ELECTROLUMINESCENT OR ELECTRON TRANSPORT PROPERTIES - A compound of the formula R01-13-2011
20110006294LAYERED STRUCTURE - Disclosed is a layered structure including a first electrode and a second electrode, a light-emitting layer or a charge separation layer between the first electrode and the second electrode, and a layer containing a conjugated polymer compound between the light-emitting layer or the charge separation layer and the first electrode, wherein the conjugated polymer compound contains a repeating unit selected from the group consisting of a repeating unit represented by formula (1):01-13-2011
20110006290ARRAY SUBSTRATE FOR LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An array substrate for a display device, including a substrate having a pixel region and a switching region, a source electrode and a drain electrode on the switching region of the substrate, ends of the source and drain electrodes having tapered edges, a pixel electrode in the pixel region of the substrate, the pixel electrode being connected to the drain electrode, an organic semiconductor layer on the source and drain electrodes, the organic semiconductor layer completely contacting tapered edges and a top surface of each of the source and drain electrodes, a first insulating layer on the organic semiconductor layer, and a gate electrode on the first insulating layer.01-13-2011
20120292604ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device is provided. The organic light emitting device includes a substrate, at least one organic scattering layer, a first electrode layer, an organic light emitting layer, and a second electrode layer. The organic scattering layer is disposed on a surface of the substrate, and a glass transition temperature Tg of a material of the organic scattering layer is lower than 11-22-2012
20110057172Filler for sealing organic light emmiting device and method for manufacturing the organic light emmiting device using the same - A sealing filler for an organic light emitting device display includes a siloxane polymer having a surface tension of about 20 dyn/cm or less. The siloxane polymer may be represented by03-10-2011
20130056715PHOTOELECTRIC CONVERSION DEVICE - To provide a photoelectric conversion device which has little light loss caused by light absorption in a window layer, the photoelectric conversion device includes a first electrode, a first semiconductor layer formed over the first electrode, a second semiconductor layer formed over the first semiconductor layer, a third semiconductor layer formed over the second semiconductor layer, and a second electrode formed over the third semiconductor layer; and the first semiconductor layer is a light-transmitting semiconductor layer containing an organic compound and an inorganic compound, and the second semiconductor layer and the third semiconductor layer are each a semiconductor layer containing an organic compound.03-07-2013
20130056714ORGANIC EL DISPLAY, METHOD OF PRODUCING ORGANIC EL DISPLAY, AND ELECTRONIC UNIT - An organic EL display includes: a plurality of first electrodes provided in a display region on a drive substrate, the plurality of first electrodes each including a laminated film having two or more layers; an organic layer provided on the plurality of first electrodes and including a light emitting layer; an electrode pad provided in a peripheral region around the display region; and a second electrode provided on the organic layer as well as the electrode pad, wherein the laminated film includes a first conductive film functioning as a reflective film, and a second conductive film provided below the first conductive film, and having a reflectance lower than that of the first conductive film, and the electrode pad corresponds to a part of the laminated film, and includes a conductive film made of a material same as that of the second conductive film.03-07-2013
20130056720COMPOUND FOR ORGANIC OPTOELECTRONIC DEVICE, ORGANIC LIGHT EMITTING DIODE INCLUDING THE SAME AND DISPLAY INCLUDING THE ORGANIC LIGHT EMITTING DIODE - A compound for an organic optoelectronic device and an organic photoelectric device including the same are provided. A compound for an organic optoelectronic device represented by Chemical Formula 1 is provided to fabricate an organic photoelectric device having excellent electrochemical and thermal stability and life-span characteristics, and high luminous efficiency at a low driving voltage.03-07-2013
20130056719ORGANIC EL DISPLAY PANEL AND ORGANIC EL DISPLAY APPARATUS - Provided is organic EL display panel and an organic EL display apparatus that can be driven at a low voltage and that exhibit excellent light-emitting efficiency. Included are a substrate, a first electrode, an auxiliary wiring, a hole injection layer, a functional layer, and a second electrode. The hole injection layer and the second electrode are formed to be continuous above the first electrode and above the auxiliary wiring. The second electrode and the auxiliary wiring are electrically connected by the hole injection layer in an organic EL display panel. The hole injection layer is a metal oxide film, and metal atoms constituting the metal oxide include both metal atoms at a maximum valence thereof and metal atoms at a valence less than the maximum valence. The metal oxide film includes a metal oxide crystal with a particle diameter on the order of nanometers.03-07-2013
20130056717ORGANIC LIGHT-EMITTING DEVICE AND LIGHT SOURCE APPARATUS USING SAME - An organic light-emitting device including a first substrate, a second substrate, a light drawing-out layer disposed between the first substrate and the second substrate, a transparent electrode disposed between the light drawing-out layer and the first substrate, a reflection electrode disposed between the transparent electrode and the first substrate, and a first light-emitting unit disposed between the transparent electrode and the reflection electrode. The first light-emitting unit includes a first light-emitting layer that emits a first light-emitting color. In the organic light-emitting device, relations of the equation L03-07-2013
20130056718Electroluminescent Organic Semiconductor Element and a Method for Repair of an Electroluminescent Organic Semiconductor Element - An electroluminescent organic semiconductor element includes a substrate and a first electrode arranged on the substrate. The semiconductor element additionally contains a second electrode and at least one organic layer, which is arranged between the first electrode and the second electrode. The organic layer is a layer that generates light by recombination of charge carriers. At least one of the first and the second electrode contains a highly conductive organic sublayer.03-07-2013
20130056713ORGANIC LIGHT EMITTING DIODE AND METHOD OF FABRICATING THE SAME - The inventive concept provides organic light emitting diodes and methods of fabricating the same. The method may include forming an insulating layer on a substrate, coating a metal ink on the insulating layer, thermally treating the substrate to permeate the metal ink into the insulating layer, thereby forming an assistant electrode layer the insulating layer and the metal ink embedded in the insulating layer, and sequentially forming a first electrode, an organic light emitting layer, a second electrode on the assistant electrode layer.03-07-2013
20130056710ORGANIC LIGHT-EMITTING DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display apparatus includes a first insulating layer, a second insulating layer on the first insulating layer and including an unevenness portion, a third insulating layer on the second insulating layer, a pixel electrode on the third insulating layer, an opposite electrode facing the pixel electrode, and an organic emission layer between the pixel electrode and the opposite electrode; a thin film transistor including an active layer, a gate electrode, and source/drain electrodes connected to the active layer, the first insulating layer being between the active layer and the gate electrode and the second insulating layer being between the gate electrode, and the source/drain electrodes; and a capacitor including a lower electrode on a same layer as the gate electrode, a dielectric layer of a same material as the third insulating layer, and an upper electrode on a same layer as the pixel electrode.03-07-2013
20130056711ORGANIC LIGHT EMITTING DIODES AND METHODS OF MANUFACTURING THE SAME - The inventive concept provides organic light emitting diodes and methods of manufacturing an organic light emitting diode. The organic light emitting diode includes a substrate, a first electrode layer and a second electrode layer formed on the substrate, an organic light emitting layer disposed between the first electrode layer and the second electrode layer and generating light, and a scattering layer between the first electrode layer and the substrate or between the first electrode layer and the organic light emitting layer. The scattering layer scatters the light.03-07-2013
20120112179FLUORANTHENE COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE USING SAME - A fluoranthene compound represented by the formula (1):05-10-2012
20120112178OPTOELECTRONIC DEVICES - An optoelectronic device comprises electon donor D and acceptor A semiconducting species and an intervening co-oligomeric or copolymeric species provided to alter the energy transfer characteristics of excitons to or from the interface between the said electron acceptor and donor species. The intervening species may be of the form A05-10-2012
20120112177AMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT ELEMENT - An amine derivative represented by the following general formula (1) and exhibiting a temperature difference of 30° C. or more as defined by the difference of [decomposition temperature (° C.) minus sublimation temperature (° C.)]:05-10-2012
20120112176AROMATIC AMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE USING SAME - Disclosed is an organic electroluminescence device in which an organic thin film which is composed of one or more layers including at least a light-emitting layer is interposed between a cathode and an anode. Since at least one layer of the organic thin film contains a novel aromatic amine derivative, which has an asymmetric structure wherein two different amine units are bonded through a linking group, by itself or as a component of a mixture, molecules are hardly crystallized, thereby improving the production yield of the organic electroluminescence device. This organic electroluminescence device has a long life.05-10-2012
20120112175PHOTOVOLTAIC DEVICES COMPRISING ION PAIRS - A photovoltaic (PV) device having an electron donor region and electron acceptor region, the donor and acceptor regions comprising conjugated polymers and/or molecular semiconductors, ion pairs being, preferably preferentially, located at, near or towards the interface between the donor and acceptor regions.05-10-2012
20120112170CROSS-CONJUGATED POLYMERS FOR ORGANIC ELECTRONIC DEVICES AND RELATED METHODS - Cross-conjugated donor-acceptor polymers, methods for their preparation, devices that include polymers, and methods for the preparation and use of the devices.05-10-2012
20120112174COMPOUND FOR ORGANIC OPTOELECTRONIC DEVICE, ORGANIC LIGHT EMITTING DIODE INCLUDING THE SAME AND DISPLAY DEVICE INCLUDING THE ORGANIC LIGHT EMITTING DIODE - A compound for an organic optoelectronic device, an organic light emitting diode, and a display device, the compound including moieties represented by the following Chemical Formula 1; Chemical Formula 4; and one of Chemical Formulae 2 and 3;05-10-2012
20120112173ORGANIC EL DISPLAY DEVICE AND METHOD FOR PRODUCTION OF THE SAME - Disclosed herein is an organic electroluminescence display device including: a substrate; a plurality of lower electrodes formed thereon for each of a plurality of organic electroluminescence elements; a plurality of hole injecting/transporting layers capable of either hole injection or hole transportation which are formed on the lower electrodes for each of the organic electroluminescence elements; a plurality of organic light emitting layers containing a low-molecular weight material which are formed on the hole injecting/transporting layers for each of the organic electroluminescence elements; an electron injecting/transporting layer capable of either electron injection or electron transportation which is formed over the entire surface of the organic light emitting layers; and an upper electrode formed on the electron injecting/transporting layer.05-10-2012
20120112172DISPLAY DEVICE, METHOD OF MANUFACTURING DISPLAY DEVICE, AND ELECTRONIC APPARATUS - Disclosed herein is a display device including a plurality of kinds of pixels that emit color light beams different from each other, the pixels being provided on a substrate, wherein each of the pixels includes an organic stacked film including one or more organic light emitting layers and another kind of organic layer, with the layer structure of another kind of organic layer differing on the basis of each of the kinds of the pixels, and a first electrode and a second electrode which are disposed so that the organic stacked film is interposed therebetween.05-10-2012
20120112171NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD FOR MANUFACTURING SAME - According to one embodiment, a nonvolatile semiconductor memory device includes a first stacked structure body, a first semiconductor layer, a first organic film, a first semiconductor-side insulating film, and a first electrode-side insulating film. The first stacked structure body includes a plurality of first electrode films stacked along a first direction and a first inter-electrode insulating film provided between the first electrode films. The first semiconductor layer is opposed to side faces of the first electrode films. The first organic film is provided between the side faces of the first electrode films and the first semiconductor layer and containing an organic compound. The first semiconductor-side insulating film is provided between the first organic film and the first semiconductor layer. The first electrode-side insulating film provided between the first organic film and the side faces of the first electrode films.05-10-2012
20120112169AROMATIC AMINE DERIVATIVE, AND ORGANIC ELECTROLUMINESCENT ELEMENT COMPRISING SAME - An aromatic amine derivative represented by the following formula (1) 05-10-2012
20090179194ORGANIC THIN FILM TRANSISTORS - An organic thin film transistor has a gate dielectric layer which is formed from a block copolymer. The block copolymer comprises a polar block and a nonpolar block. The resulting dielectric layer has good adhesion to the gate electrode and good compatibility with the semiconducting layer.07-16-2009
20130056722NOVEL ORGANIC COMPOUND - A novel organic compound is suitable for emitting green light. An organic light-emitting device includes the novel organic compound.03-07-2013
20130056721ORGANIC EL ILLUMINATION DEVICE - In the organic EL illumination device including m (m is an integer greater than 1) series circuits each of which includes n (n is an integer greater than 1) organic EL panels connected in series, each of the organic EL panels is provided with one organic EL element, a positive electrode and a negative electrode, the m series circuits are connected in parallel between the positive electrode and the negative electrode, and among the organic EL panels in the m series circuits, the organic EL panels having the same place in series connections in the direction from the positive electrode to the negative electrode are connected with each other in parallel.03-07-2013
20130056716TRANSITION METAL CARBENE COMPLEXES AND THE ELECTROLUMINESCENT APPLICATION THEREOF - This invention provides a transition metal carbene complexes and the electroluminescent application thereof. Through employing different N̂N heteroleptic ligand, the transition metal carbene complex can display wide-range color tuning ability from deep blue to red. The mentioned transition metal carbene complex can be applied in luminescent device, and the luminescent device can display wide-range color tuning ability with high luminescent efficiency while employing different N̂N heteroleptic ligand in the transition metal carbene complex.03-07-2013
20120305902MICROCAVITY OLEDS FOR LIGHTING - Various methods and systems are provided for related to organic light emitting diodes (OLEDs) having a microcavity In one embodiment, a white-light source includes a first microcavity organic light emitting diode (OLED) configured to emit a narrow spectrum of blue light, a second microcavity OLED configured to emit a narrow spectrum of green light, and a third microcavity OLED configured to emit a narrow spectrum of red light In another embodiment, a light source includes a plurality of OLEDs disposed on a glass substrate Each of the OLEDs is configured to emit light in substantially orthogonal to the glass substrate in a predefined spectrum Each of the OLEDs includes a semi-reflecting mirror, and an emitting layer, where the emitting layer in each OLED corresponds to a respective color of light emitted by the OLED.12-06-2012
20120305895LIGHT EMITTING DEVICES AND COMPOSITIONS - A light emitting composition includes a light-emitting iridium-functionalized nanoparticle, such as a compound of formula (I). The compound of formula (I) further comprises at least one host attached to the core. A light emitting device includes an anode, a cathode, and a layer containing such a light-emitting composition is also disclosed. In an embodiment, the light emitting device can emit white light.12-06-2012
20130056712Static-Electrical-Field-Enhanced Semiconductor-Based Devices and Methods of Enhancing Semiconductor-Based Device Performance - Devices that include one or more functional semiconductor elements that are immersed in static electric fields (E-fields). In one embodiment, one or more electrets are placed proximate the one or more organic, inorganic, or hybrid semiconductor elements so that the static charge(s) of the electret(s) participate in creating the static E-field(s) that influences the semiconductor element(s). An externally applied electric field can be used, for example, to enhance charge-carrier mobility in the semiconductor element and/or to vary the width of the depletion region in the semiconductor material.03-07-2013
20120187392IMIDAZOPYRIDINE DERIVATIVES AND ORGANIC ELECTROLUMINESCENT ELEMENTS CONTAINING SAME - An imidazopyridine derivative shown by the following formula (1).07-26-2012
20120187386ORGANIC ELECTRO LUMINESCENCE DISPLAY DEVICE AND METHOD FOR MANUFACTURING SAME - Disclosed herein is an organic electro luminescence display device including: on a substrate, a plurality of lower electrodes provided correspondingly in number to organic electro luminescence elements for a plurality of color light emissions; an organic layer provided on the lower electrodes and including a plurality of hole injection/transport layers having at least one of hole injection and hole transport characteristics, a plurality of organic light-emitting layers; and a plurality of electron injection/transport layers having at least one of electron injection and electron transport characteristics, and an upper electrode formed on the organic layer. The hole injection/transport layer, the organic light-emitting layer and the electron injection/transport layer are classified into an individual layer and a common layer. A thickness of the common layer is larger than a thickness of the individual layer.07-26-2012
20120187381Electron Transporting Compounds - Compounds comprising an aza-dibenzo moiety and a condensed aromatic moiety having at least three benzene rings are provided. In particular, the compounds may comprise an azadibenzofuran, azadibenzothiophene, or azadibenzoselenophene joined directly or indirectly to an anthracene. The compounds may be used in the electron transport layer of organic light emitting devices to provide devices with improved properties.07-26-2012
20090272967PENTACENE-CARBON NANOTUBE COMPOSITE, METHOD OF FORMING THE COMPOSITE, AND SEMICONDUCTOR DEVICE INCLUDING THE COMPOSITE - A composite material includes a carbon nanotube, and plural pentacene molecules bonded to the carbon nanotube. A method of forming the composite layer, includes depositing on a substrate a dispersion of soluble pentacene precursor and carbon nanotubes, heating the dispersion to remove solvent from the dispersion, heating the substrate to convert the pentacene precursor to pentacene and form the carbon nanotube-pentacene composite layer.11-05-2009
20100084645COMPOSITE MATERIAL, AND LIGHT EMITTING ELEMENT AND LIGHT EMITTING DEVICE USING THE COMPOSITE MATERIAL - An object is to provide a light emitting element with low drive voltage which contains an organic compound and an inorganic compound. One feature of a light emitting element of the present invention is to include a layer containing a light emitting material between a pair of electrodes, in which the layer containing a light emitting material has a layer containing a carbazole derivative represented by General Formula (1) and an inorganic compound which exhibits an electron accepting property to the carbazole derivative represented by General Formula (1). With such a structure, the inorganic compound accepts electrons from the carbazole derivative, carriers are generated internally, and a drive voltage of the light emitting element can be reduced.04-08-2010
20100084643THIN FILM TRANSISTOR, METHOD FOR MANUFACTURING THIN FILM TRANSISTOR, AND ELECTRONIC APPARATUS - A thin film transistor includes an insulating layer formed from an organic material, an oxide material, or a silicon based material, a source electrode and a drain electrode disposed on the insulating layer by using an electrically conductive oxide material, a self-organized film covering exposed surfaces of the insulating layer, the source electrode, and the drain electrode, and a semiconductor thin film disposed, on the insulating layer provided with the self-organized film, over from the source electrode to the drain electrode.04-08-2010
20090272966ORGANIC TRANSISTOR AND ACTIVE MATRIX DISPLAY - An organic transistor is disclosed that has an organic semiconductor layer patterned with high resolution. The organic transistor includes a gate electrode, a gate insulting film, a source electrode, a drain electrode, and an organic semiconductor layer formed of an organic semiconductor material. The gate electrode, the gate insulting film, the source electrode, the drain electrode, and the organic semiconductor layer are formed on a substrate. At least one of the source electrode and the drain electrode has an opening.11-05-2009
20090101890Azaperylenes as organic semiconductors - A novel semiconductor device comprises an azaperylene organic semiconductor of the formula I (I) wherein each of R1, R2, R3 and R4 independently is selected from H, unsubstituted or substituted alkyl, unsubstituted or substituted alkenyl, unsubstituted or substituted alkynyl, unsubstituted or substituted aryl, halogen, Si(RH)04-23-2009
20090230386BENZOBISTHIAZOLE COMPOUND, BENZOBISTHIAZOLE POLYMER, ORGANIC FILM INCLUDING THE COMPOUND OR POLYMER AND TRANSISTOR INCLUDING THE ORGANIC FILM - A benzobisthiazole compound having a specific formula, and a benzobisthiazole polymer having a specific benzothiazole structure. An organic film including the benzobisthiazole polymer, the benzobisthiazole compound and/or a polymer obtained from the benzobisthiazole compound. An organic thin-film transistor including an organic semiconductor layer including the organic film; a pair of electrodes configured to flow an electric current through the organic semiconductor layer; and a third electrode configured to apply a voltage to the organic semiconductor layer.09-17-2009
20090267061Carbonyl-Functionalized Thiophene Compounds and Related Device Structures - Carbonyl-functionalized oligo/polythiophene compounds, and related semiconductor components and related device structures.10-29-2009
20090267060POLYMER WRAPPED CARBON NANOTUBE NEAR-INFRARED PHOTOACTIVE DEVICES - A photoactive device includes a photoactive region disposed between and electrically connected to two electrodes where the photoactive region includes a first organic photoactive layer comprising a first donor material and a second organic photoactive layer comprising a first acceptor material. The first donor material contains photoactive polymer-wrapped carbon nanotubes and the photoactive region includes one or more additional organic photoactive material layers disposed between the first donor material layer and the acceptor material layer. The photoactive region creates excitons upon absorption of light in the range of about 400 nm to 1450 nm.10-29-2009
20090267056MEMORY CELL - A memory cell comprising a metal-insulator-semiconductor (MIS) structure is disclosed using a homogeneous carrier trapping layer interposed between a semiconductor layer and the gate electrode of a transistor structure so that the operation voltage is reduced and the manufacturing is simplified with lowered cost. The MIS structure comprises: a gate electrode; a semiconductor layer; and a homogeneous carrier trapping layer interposed between the gate electrode and the semiconductor layer; wherein the homogeneous carrier trapping layer comprises novolac.10-29-2009
20090267055TRANSISTOR, METHOD FOR MANUFACTURING SAME, AND SEMICONDUCTOR DEVICE COMPRISING SUCH TRANSISTOR - The invention provides a process for production of a transistor that can form an oriented active layer by a convenient method while yielding a transistor with excellent carrier mobility. The process according to the invention is a process for production of a transistor with an active layer composed of an organic semiconductor compound-containing semiconductor film, the process comprising 10-29-2009
20130062599ORGANIC LIGHT EMITTING DEVICES HAVING GRADED EMISSION REGIONS - Organic light-emitting devices having an emissive region comprising a hole transport material and an electron transport material in varying material concentration across the devices. Variation of the concentration of the hole transport material and electron transport material is provided continuously or in a graded manner, as opposed to using multiple layers arranged to form a step-like gradient.03-14-2013
20130062596DISPLAY, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC UNIT - A display includes: a first light-emitting device disposed in a first region on a substrate and including a transfer organic layer; a second light-emitting device disposed in a second region adjacent to the first region on the substrate and not including a transfer organic layer; and a level difference provided between the first region and the second region, and being large enough to inhibit transfer of the transfer organic layer to the second region when the transfer organic layer is formed in the first region.03-14-2013
20130062598Compounds Having Semiconducting Properties and Related Compositions and Devices - Disclosed are new compounds having semiconducting properties. Such compounds can be processed in solution-phase at a temperature of less than about 50° C. into thin film semiconductors that exhibit high carrier mobility and/or good current modulation characteristics.03-14-2013
20130062597NITROGEN-CONTAINING HETEROAROMATIC RING COMPOUND - A nitrogen-containing heteroaromatic compound is represented by the following formula (A).03-14-2013
20130062595PHOTODIODE - A photodiode according to example embodiments includes an anode, a cathode, and an intrinsic layer between the anode and the cathode. The intrinsic layer includes a P-type semiconductor and an N-type semiconductor, and composition ratios of the P-type semiconductor and the N-type semiconductor vary within the intrinsic layer depending on a distance of the intrinsic layer from one of the anode and the cathode.03-14-2013
20120223298Triarylamine Derivative, Light-Emitting Substance, Light-Emitting Element, Light-Emitting Device, and Electronic Device - A triarylamine derivative represented by a general formula (G1) given below is provided. Note that in the formula, Ar represents either a substituted or unsubstituted phenyl group or a substituted or unsubstituted biphenyl group; α represents a substituted or unsubstituted naphthyl group; β represents either hydrogen or a substituted or unsubstituted naphthyl group; n and m each independently represent 1 or 2; and R09-06-2012
20120223297LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A light-emitting element includes an anode, a cathode, a luminescent layer that is disposed between the anode and the cathode and emits light by applying a current between the anode and the cathode, and an organic layer that is disposed in contact with the anode and the luminescent layer between the anode and the luminescent layer and functions to transport holes. The organic layer includes a hole injection layer and a hole transport layer. The hole injection layer and the hole transport layer each contain an electron transport material that can transport electrons. The electron transport material content in the hole injection layer is different from that in the hole transport layer.09-06-2012
20120223295BISCARBAZOLE DERIVATIVES AND ORGANIC ELECTROLUMINESCENCE - Provided are an organic electroluminescence device having high current efficiency and a long lifetime, and a biscarbazole derivative for realizing the device. The biscarbazole derivative has a specific substituent. The organic EL device has a plurality of organic thin-film layers including a light emitting layer between a cathode and an anode, and at least one layer of the organic thin-film layers contains the biscarbazole derivative.09-06-2012
20120223294SPIN FILTER DEVICE, METHOD FOR ITS MANUFACTURE AND ITS USE - The present invention relates to a method and a device for providing a current of spin-polarised electrons. More particularly, the present invention is suited for use in spin electronics or detection of spin-polarised electrons.09-06-2012
20130161597METHOD OF INCORPORATING A BLACK PHOTO STRIPE OVER PARYLENE LAYER - A method of incorporating a structurally integrated black photo stripe over an OLED based light blocking means by sandwiching the black photo stripe between two layers of polymeric layers, above the OLED stack, seal and RGB color filter layer.06-27-2013
20130161600FORMATION OF CONJUGATED POLYMERS FOR SOLID-STATE DEVICES - Disclosed herein is a facile process for the formation of conjugated polymers inside or outside assembled solid-state devices. One process generally involves applying a voltage to a device comprising at least two electrodes, a combination of an electrolyte composition and a electroactive monomer disposed between the electrodes, and a potential source in electrical connection with the at least two electrodes; wherein the applying voltage polymerizes the electroactive monomer into a conjugated polymer. Also disclosed are electrochromic articles prepared from the process and solid-state devices comprising a composite of an electrolyte composition and a conjugated polymer.06-27-2013
20130161601Light-Emitting Element, Light-Emitting Device, and Electronic Device - It is an object of the present invention to provide a light-emitting element with high light emission efficiency. It is another object of the present invention to provide a light-emitting element with a long lifetime. A light-emitting device is provided, which includes a light-emitting layer, a first layer, and a second layer between first electrode and a second electrode, wherein the first layer is provided between the light-emitting layer and the first electrode, the second layer is provided between the light-emitting layer and the second electrode, the first layer is a layer for controlling the hole transport, the second layer is a layer for controlling the electron transport, and a light emission from the light-emitting layer is obtained when voltage is applied to the first electrode and the second electrode so that potential of the first electrode is higher than potential of the second electrode.06-27-2013
20110012102ORGANIC ELECTROLUMINESCENCE ELEMENT, AND METHOD FOR PRODUCTION THEREOF - Disclosed is an organic electroluminescence element comprising at least an anode, a light-emitting layer, an intermediate layer and a cathode laminated sequentially in this order, wherein the intermediate layer comprises a salt of an acid of at least one metal selected from the group consisting of molybdenum, niobium, tantalum, titanium and metals belonging to Group IIb and sodium.01-20-2011
20110012101OLED DEVICE WITH MACO EXTRACTOR - The invention relates to an OLED device with a stack comprising: a light emitting organic layer (01-20-2011
20110012100METAL COMPLEXES - The present invention relates to metal complexes of the formula (1) and to the use thereof in organic electroluminescent devices, and to organic electroluminescent devices which comprise these metal complexes.01-20-2011
20110012099OPTOELECTRONIC COMPONENT COMPRISING NEUTRAL TRANSITION METAL COMPLEXES - The invention relates to the use of compositions as emitters or absorbers in an electronic component, wherein the compositions have a first neutral transition metal complex and a second neutral transition metal complex. According to the invention, the first transition metal complex and the second transition metal complex together form a column structure. The invention further relates to a method for the production of electronic components having such compositions.01-20-2011
20110012098ORGANIC TRANSISTOR - In order to attain high mobility, large on/off current ratio and excellent storage stability to organic transistor comprising an organic semiconductor layer, the organic semiconductor layer comprises at least one compound represented by the general formula (1).01-20-2011
20110012097SEMICONDUCTOR DEVICE AND DISPLAY APPARATUS - A semiconductor device is provided in which, while an organic semiconductor layer is sufficiently protected by a protective film, it is possible to prevent delamination at the protective film interface, thereby achieving good characteristics and improving yield due to improvement in mechanical reliability. A semiconductor device (01-20-2011
20110012096PHOTOACTIVE NANOSTRUCTURE AND METHOD OF MANUFACTURING SAME - A nanostructure comprising at least one semiconductor nanoparticle bound to a photocatalytic unit of a photosynthetic organism is disclosed. The nanoparticle and a binding between the nanoparticle and the photocatalytic unit are selected such that transfer of electrons from the photocatalytic unit to the nanoparticle is prevented or suppressed relative to transfer of excitons from the nanoparticle to the photocatalytic unit. Uses of same and methods of fabricating devices with same are also disclosed. Nanostructures comprising electrically conductive nanoparticles are also disclosed.01-20-2011
20110012095NON-BLOCKED PHOSPHORESCENT OLEDS - An organic light emitting diode (OLED) architecture in which efficient operation is achieved without requiring a blocking layer by locating the recombination zone close to the hole transport side of the emissive layer. Aryl-based hosts and Ir-based dopants with suitable concentrations result in an efficient phosphorescent OLED structure. Previously, blocking layer utilization in phosphorescent OLED architectures was considered essential to avoid exciton and hole leakage from the emissive layer, and thus keep the recombination zone inside the emissive layer to provide high device efficiency and a pure emission spectrum.01-20-2011
20110012094Electro-Optic Device and Method for Manufacturing the same - Provided are an electro-optic device and a method for manufacturing the same. The method includes forming a bottom electrode on a substrate, forming a first insulation film to cross over the bottom electrode forming an organic film on the substrate where the bottom electrode and the first insulation film are formed, forming a top electrode film on the organic film, and forming a top electrode to cross the bottom electrode by removing a portion of the top electrode film through a laser-scribing process. Herein, in the forming of the top electrode through the laser-scribing process, an edge region of a bottom surface of the top electrode may be positioned corresponding to an upper side of the first insulation film. Therefore, it is possible to reduce the number of processing apparatuses and steps required for separately forming the plurality of top electrodes, thereby simplifying manufacturing processes and saving manufacturing cost. Furthermore, since an insulation film is formed under an edge region of a top electrode, it is possible to prevent the generation of leakage current and the malfunction of a device caused by the deformation of the top electrode even though the edge region of the top electrode is damaged during a laser-scribing process. Thus, the reliability of electro-optic devices can be improved.01-20-2011
20110012093LUMINESCENT GOLD(III) COMPOUNDS CONTAINING BIDENTATE LIGAND FOR ORGANIC LIGHT-EMITTING DEVICES AND THEIR PREPARATION - Embodiments of the invention are directed to luminescent gold(III) compounds contains a bidentate ligand with at least one strong σ-donating group, a method of preparation of these compounds and the use of these compounds in organic light emitting devices. The gold(III) compounds have the chemical structure:01-20-2011
20110012092NITROGEN-CONTAINING HETEROCYCLIC DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - A novel nitrogen-containing heterocyclic derivative having a specific structure. An organic electroluminescence device comprises an organic thin-film layer which is disposed between a cathode and an anode and comprises one or more layers having a light emitting layer. At least one layer of the organic thin-film layer comprises the nitrogen-containing heterocyclic derivative. The organic electroluminescence device exhibits a high luminance and a high luminous efficiency even at a low driving voltage.01-20-2011
20110012091ENHANCEMENT OF ORGANIC PHOTOVOLTAIC CELL OPEN CIRCUIT VOLTAGE USING ELECTRON/HOLE BLOCKING EXCITON BLOCKING LAYERS - The present disclosure relates to photosensitive optoelectronic devices comprising at least one of an electron blocking or hole blocking layer. Further disclosed are methods of increasing power conversion efficiency in photosensitive optoelectronic devices using at least one of an electron blocking or hole blocking layer. The electron blocking and hole blocking layers presently disclosed may reduce electron leakage current by reducing the dark current components of photovoltaic cells. This work demonstrates the importance of reducing dark current to improve power conversion efficiency of photovoltaic cells.01-20-2011
20130161592ORGANIC LIGHT EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF - An OLED device is discussed which includes: a drive thin film transistor formed on a substrate; an organic light emitting diode configured with first electrode, a light emission layer and a second electrode which are sequentially formed on the substrate provided with the drive thin film transistor; a barrier film disposed on the substrate with the organic light emitting element and configure to include a retardation film, an optically isotropic film and a thin layer interposed between the retardation film and the optically isotropic film; and a polarizing plate disposed on the barrier film and configured to prevent reflection of external light.06-27-2013
20130161593Light-Emitting Element, Light-Emitting Device, and Electronic Device - A light-emitting element includes a first electrode, a first light-emitting layer formed over the first electrode, a second light-emitting layer formed on and in contact with the first light-emitting layer to be in contact therewith, and a second electrode formed over the second light-emitting layer. The first light-emitting layer includes a first light-emitting substance and a hole-transporting organic compound, and the second light-emitting layer includes a second light-emitting substance and an electron-transporting organic compound. Substances are selected such that a difference in LUMO levels between the first light-emitting substance, the second light-emitting substance, and the electron-transporting organic compound is 0.2 eV or less, a difference in HOMO levels between the hole-transporting organic compound, the first light-emitting substance, and the second light-emitting substance is 0.2 eV or less, and a difference in LUMO levels between the hole-transporting organic compound and the first light-emitting substance is greater than 0.3 eV.06-27-2013
20130161594CONDUCTING FORMULATION - The invention relates to novel formulations comprising an organic semiconductor (OSC) and a conductive additive, to their use as conducting inks for the preparation of organic electronic (OE) devices, especially organic photovoltaic (OPV) cells, to methods for preparing OE devices using the novel formulations, and to OE devices and OPV cells prepared from such methods and formulations.06-27-2013
20130161595Organic Light Emitting Display Device and Method of Manufacturing the Same - Provided are a method of manufacturing an organic light emitting display device and an organic light emitting display device manufactured by the method. The method includes calculating a peak-luminance current density for each of a red sub-pixel, a blue sub-pixel, a green sub-pixel, and a white sub-pixel, calculating an average use current density for each of the red sub-pixel, blue sub-pixel, green sub-pixel, and white sub-pixel; determining a size of each sub-pixel with the peak-luminance current density and the average use current density, and forming the sub-pixels with the determined sizes of the respective sub-pixels. The present invention sets the size of each sub-pixel in consideration of a peak-luminance current density and an average use current density, thus easily achieving the peak luminance and enhancing the color-coordinate life.06-27-2013
20130161596PHOTOVOLTAIC DEVICE - An apparatus includes a substrate; and a photoactive layer disposed on the substrate. The photoactive layer includes an electron acceptor material; an electron donor material; and a material having dipoles.06-27-2013
20130161589ORGANIC SEMICONDUCTOR TRANSISTOR - Provided is an organic semiconductor transistor including plural electrodes, and an organic semiconductor layer containing at least one fluorene compound represented by the following formula (I):06-27-2013
20130161590ORGANIC LIGHT EMITTING DEVICE WITH ENHANCED LIFESPAN - An organic light emitting device, and a manufacturing method of the same, in which in a light emitting layer, an electron trap material is introduced so as to improve a light emitting property and an operating characteristic and to prolong a life span.06-27-2013
20130161591MATERIAL FOR ORGANIC ELECTROLUMINESCENT ELEMENT, AND ORGANIC ELECTROLUMINESCENT ELEMENT - A material for an organic electroluminescence device including at least one of compounds shown by the following formula (Ia), (Ib), (IIa), (IIb), (III), (IVa) or (IVb):06-27-2013
20130214262ORGANIC ELECTROLUMINESCENCE DEVICE AND MANUFACTURING METHOD THEREOF - An organic electroluminescence device is provided. The device comprises an anode base layer (08-22-2013
20130214263MONOAMINE COMPOUND, CHARGE-TRANSPORTING MATERIAL, AND ORGANIC ELECTROLUMINESCENT DEVICE - The present invention provides an organic electroluminescent device exhibiting a long life, a high luminance, and a high efficiency.08-22-2013
20130214257CHARGE INJECTION AND TRANSPORT LAYERS - Compositions for use in hole transporting layers (HTLs) or hole injection layers (HILs) are provided, as well as methods of making the compositions and devices fabricated from the compositions. OLED devices can be made. The compositions comprise at least one conductive conjugated polymer, at least one semiconducting matrix component that is different from the conductive conjugated polymer, and an optional dopant, and are substantially free of an insulating matrix component.08-22-2013
20130214261Electro-Optical Device - An electro-optical device for performing time division gray scale display and which is capable of arbitrarily setting the amount of time during which light is emitted by EL elements is provided. From among n sustain periods Ts08-22-2013
20130214264CARBENE METAL COMPLEXES AS OLED MATERIALS - An organic light emitting device having an anode, a cathode and an organic layer disposed between the anode and the cathode is provided. In one aspect, the organic layer comprises a compound having at least one zwitterionic carbon donor ligand. In another aspect, the organic layer comprises a carbene compound, including the following:08-22-2013
20130214255OPTO-ELECTRIC DEVICE AND METHOD OF MANUFACTURING THEREOF - The present invention relates to an opto-electric device having a stack of layers subsequently comprising 08-22-2013
20130161603PHOSPHAPHENANTHRENE-CARBAZOLE-BASED ORGANIC LIGHT-EMITTING COMPOUND, AND ORGANIC LIGHT-EMITTING DEVICE COMPRISING SAME - Provided are a phosphaphenanthrene-carbazole-based organic light-emitting compound having superior light emitting properties, and an organic light-emitting device including the same.06-27-2013
20130161602PROCESS FOR MODIFYING ELECTRODES IN AN ORGANIC ELECTRONIC DEVICE - The present invention relates to a process for modifying the electrodes in an organic electronic (OE) device, in particular an organic field effect transistor (OFET), and to an OE device prepared by using such a process.06-27-2013
20130161599ELECTRO-CHEMICAL SENSORS, SENSOR ARRAYS AND CIRCUITS - An electro-chemical sensor includes a first electrode, a second electrode spaced apart from the first electrode, and a semiconductor channel in electrical contact with the first and second electrodes. The semiconductor channel includes a trapping material. The trapping material reduces an ability of the semiconductor channel to conduct a current of charge carriers by trapping at least some of the charge carriers to localized regions within the semiconductor channel. The semiconductor channel includes at least a portion configured to be exposed to an analyte to be detected, and the trapping material, when exposed to the analyte, interacts with the analyte so as to at least partially restore the ability of the semiconductor channel to conduct the current of charge carriers.06-27-2013
20130161598Iridium Complex, Light-Emitting Element, Light-Emitting Device, Electronic Device, and Lighting Device - A tris-type iridium complex in which a ligand having a distinctive nitrogen-containing five-membered heterocyclic skeleton is coordinated is provided. The ligand has a nitrogen-containing five-membered heterocyclic skeleton composed of 2 to 4 nitrogen atoms and one or more carbon atoms. In the skeleton, an aryl group is bonded to a carbon atom on both sides of which nitrogen atoms are positioned, and a tricycloalkyl group having a bridge structure and having 9 or 10 carbon atoms is bonded to one of the two nitrogen atoms positioned on both the sides of the carbon atom. The tricycloalkyl group having a bridge structure and having 9 or 10 carbon atoms may be an adamantyl group or a noradamantyl group.06-27-2013
20090236593ORGANIC THIN FILM TRANSISTOR AND PROCESS FOR MANUFACTURING SAME - An organic thin film transistor includes a dielectric layer and an active layer overlapping the dielectric layer, a source contact and a drain contact arranged on a surface of the active layer opposite the dielectric layer and mutually separated by an intermediate region, the source contact and drain contact having first and second inner walls, respectively, facing the intermediate region, and a gate contact arranged on a portion of another surface of the dielectric layer opposite the active layer and having first and second side walls aligned with the first and second inner walls, respectively.09-24-2009
20090236590Light-Emitting Element, Light-Emitting Device and Electronic Device - A light-emitting element with improved emission efficiency is provided. The light-emitting element includes a light-emitting layer in which a first light-emitting layer and a second light-emitting layer are stacked in contact with each other over an anode, and a first substance serving as an emission center substance in the second light-emitting layer constitutes the first light-emitting layer. A second substance serving as a host material to disperse the first substance serving as an emission center substance is included in the second light-emitting layer. In the light-emitting element, the second substance is a substance having an energy gap (or triplet energy) larger than the first substance.09-24-2009
20090236589NITRIDE SEMICONDUCTOR LAMINATED STRUCTURE AND OPTICAL SEMICONDUCTOR DEVICE, AND METHODS FOR PRODUCING THE SAME - A nitride semiconductor laminated structure comprises: a substrate; a first p-type nitride semiconductor layer formed using an organometallic compound as a Group III element source material, a p-type impurity source material and ammonia as a Group V element source material, with the hydrogen concentration in the first p-type nitride semiconductor layer being 1×1009-24-2009
20090236592LIQUID CRYSTAL DISPLAY DEVICE USING SMALL MOLECULE ORGANIC SEMICONDUCTOR MATERIAL - A liquid crystal display structure is provided. The liquid crystal display structure includes a pixel region and a thin film transistor on the substrate. The thin film transistor is adjacent to the pixel region and includes a gate electrode; a gate insulating layer having a top surface; a source electrode and a drain electrode at the top surface of the gate insulating layer; a semiconductor layer disposed at the top surface of the gate insulating layer, the semiconductor layer between the source electrode and the drain electrode defining a channel region, the semiconductor layer including a small molecule organic semiconductor material; and a first passivation layer covering the channel region, a top surface of the first passivation layer coinciding with or being below a top surface of each of the source electrode and the drain electrode.09-24-2009
20130112952DEPOSITING PREMIXED MATERIALS - A combination of host materials suitable for co-evaporation or premix evaporation, and devices containing the combination of host materials are provided. The combination of host materials provides improved lifetime and efficiency. A method for fabricating devices containing the host material combination is also provided.05-09-2013
20130069048LUMINESCENT DEVICE AND METHOD OF PRODUCING THE SAME - An electroluminescent device including a substrate on which a first electrode is formed; a transparent substrate disposed on the first electrode side of the substrate; a color filter disposed between the first electrode and the transparent substrate; an electroluminescent layer disposed between the first electrode and the color filter; and a second electrode disposed between the electroluminescent layer and the color filter.03-21-2013
20130069049COMPOUND COMPRISING A FIVE-MEMBERED HETERO RING, AN ORGANIC ELECTRICAL ELEMENT USING THE SAME AND A TERMINAL THEREOF - Disclosed are a compound comprising a five-membered hetero ring, an organic electrical element using the same and a terminal thereof.03-21-2013
20130069051ORGANIC EL ELEMENT - Disclosed is an organic EL element which requires a low electric power and can exhibit high reliability under high temperature environments. Specifically disclosed is an organic EL element produced by forming, between an anode (03-21-2013
20130069050OPTOELECTRONIC DEVICE HAVING AN EMBEDDED ELECTRODE - An optoelectronic device including a first electrode arranged on a substrate, a second electrode that includes a first surface facing the first electrode, and a semiconductor material layer that is in electric contact with the first and second electrodes. The second electrode includes a side wall that is adjacent to the first surface and is covered with the semiconductor material layer by the insertion of a self-assembled monolayer.03-21-2013
20130069044ORGANIC LIGHT-EMITTING DIODE WITH ENHANCED EFFICIENCY - Generally, the devices provided herein comprise at least a hole-transport layer, two light-emitting layers, and an electron-transport layer, each having a highest occupied molecular orbital (HOMO) energy level and a lowest unoccupied molecular orbital (LUMO) energy level, wherein at least one of the HOMO energy levels and/or the LUMO energy levels of at least one of the light-emitting layers does not decrease in a stepwise fashion.03-21-2013
20130069047PHOTOELECTRIC CONVERSION ELEMENT AND IMAGING DEVICE - A photoelectric conversion element is provided and includes: an electrically conductive thin layer; an organic photoelectric conversion layer; and a transparent electrically conductive thin layer. The organic photoelectric conversion layer contains: a compound represented by formula (I); and a fullerene or a fullerene derivative.03-21-2013
20130069043Electro Optic Devices - An electro optic device comprising a first electrode and a second electrode and an emissive layer located between the first and second electrodes, the emissive layer comprising a polymeric semiconductor, or semiconducting and luminescent material having a thickness of 200 nm to 3000 nm.03-21-2013
20130069046ORGANIC ELECTROLUMINESCENT ELEMENT - Provided is an organic electroluminescent element that achieves increased emission intensity in the front direction of the organic electroluminescent element without reducing the size of the light-emitting region thereof. The organic electroluminescent element includes: a reflective electrode; an organic electroluminescent layer including a light-emitting layer; a transparent electrode; and a light extraction structure between the reflective electrode and the organic electroluminescent layer, the structure being of a protruding shape having inclined portions whose widths gradually narrow from the reflective electrode toward a light extraction side, in which: the light extraction structure is provided on the reflective electrode to surround a light-emitting region; in a cross section taken along a plane perpendicular to the reflective electrode where an angle of an inclination angle formed between the reflective electrode and each of the inclined portions is largest, the angle of the inclination angle is 23° or more to 33° or less.03-21-2013
20130069045ORGANIC EL DISPLAY AND METHOD OF MANUFACTURING ORGANIC EL DISPLAY - It is possible to manufacture a large-size, high-accuracy organic EL display using a plastic substrate and an organic EL display using a roll-shaped long plastic substrate.03-21-2013
20130069042ELECTRODE FOIL AND ORGANIC DEVICE - There are provided an electrode foil which has both the functions of a supporting base material and a reflective electrode and also has a superior thermal conductivity; and an organic device using the same. The electrode foil comprises a metal foil and a reflective layer provided directly on the metal foil.03-21-2013
20100001264INSULATING LAYER, ELECTRONIC DEVICE, FIELD EFFECT TRANSISTOR, AND POLYVINYLTHIOPHENOL - Provided is an insulating layer that can improve device characteristics of an electronic device including the insulating layer. The insulating layer contains a polymer insulating substance having repeating units represented by the following formula:01-07-2010
20100001267NRAM ARRAYS WITH NANOTUBE BLOCKS, NANOTUBE TRACES, AND NANOTUBE PLANES AND METHODS OF MAKING SAME - NRAM arrays with nanotube blocks, traces and planes, and methods of making the same are disclosed. In some embodiments, a nanotube memory array includes a nanotube fabric layer disposed in electrical communication with first and second conductor layers. A memory operation circuit including a circuit for generating and applying a select signal on first and second conductor layers to induce a change in the resistance of the nanotube fabric layer between the first and second conductor layers is provided. At least two adjacent memory cells are formed in at least two selected cross sections of the nanotube fabric and conductor layers such that each memory cell is uniquely addressable and programmable. For each cell, a change in resistance corresponds to a change in an informational state of the memory cell. Some embodiments include bit lines, word lines, and reference lines. In some embodiments, 6F01-07-2010
20120228588LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, DISPLAY DEVICE, AND ELECTRONIC APPARATUS - A light-emitting element includes an anode, a cathode, a luminescent layer between the anode and the cathode that emits light by applying a current between the anode and the cathode, and an electron transport layer between the cathode and the luminescent layer that transports electrons from the cathode to the luminescent layer. The electron transport layer includes an n-type transport layer and a buffer layer in contact with the n-type electron transport layer. The n-type electron transport layer contains a first electron transport material and an electron donor material and is disposed to the cathode side of the buffer layer. The buffer layer contains a second electron transport material and is disposed to the luminescent layer side of the n-type electron transport layer so as to prevent the electron injection material from diffusing from the n-type electron transport layer to the luminescent layer.09-13-2012
20120228583PYRIDYL CARBENE PHOSPHORESCENT EMITTERS - Organometallic compounds comprising an imidazole carbene ligand having a N-containing ring fused to the imidazole ring are provided. In particular, the N-containing ring fused to the imidazole ring may contain one nitrogen atom or more than one nitrogen atom. These compounds may demonstrate high photoluminescent (PL) efficiency, Gaussian emission spectra, and/or short excited state lifetimes. These materials may be especially useful as blue phosphorescent emitters.09-13-2012
20090008635COLUMNAR ELECTRIC DEVICE AND PRODUCTION METHOD THEREOF - A sensor whose size can be decreased without marring the performance and which can be installed in a narrow place, an electric device, and a method for easily manufacturing the electric device. By vacuum deposition of semiconductor on a columnar body or by applying a melt, solution, or gel of semiconductor to the columnar body, a coating of semiconductor is formed. Four insulating wires, a stripe band of the connected four insulating wires are wound around the columnar body. Then, one of the insulating wires is removed to form a copper wire in the vacant portion by copper vacuum deposition. Lastly, another insulating wire not adjacent to the copper wire is removed to form an aluminum wire in the vacant portion by aluminum vacuum deposition. By measuring the resistance between the copper and aluminum wires, the intensity of light striking the semiconductor can be determined.01-08-2009
20090008634Transistor Structures and Methods of Fabrication Thereof - An electronic device is presented, such as a thin film transistor. The device comprises a patterned electrically-conductive layer associated with an active element of the electronic device. The electrically-conductive layer has a pattern defining an array of spaced-apart electrically conductive regions. This technique allows for increasing an electric current through the device.01-08-2009
20090008633NONVOLATILE MEMORY DEVICE USING CONDUCTIVE ORGANIC POLYMER HAVING NANOCRYSTALS EMBEDDED THEREIN AND METHOD OF MANUFACTURING THE NONVLATILE MEMORY DEVICE - A nonvolatile memory device and a method of manufacturing the same are provided. The nonvolatile memory device which is convertible among a high current state, an intermediate current state, and a low current state, said device includes upper and lower conductive layers; a conductive organic layer comprising a conductive organic polymer and which is formed between the upper and lower conductive layers and has a bistable conduction property; and nanocrystals are formed in the conductive organic layer. The conductive organic polymer may be poly-N-vinylcarbazole (PVK) or polystyrene (PS). The method is characterized in that a conductive organic layer is formed by applying a conductive organic material such as PVK or PS using spin coating. Therefore, it is possible to provide a highly-integrated memory device that consumes less power and provides high operating speed. In addition, it is possible to provide the thermal stability of a memory device by using a conductive organic polymer. Moreover, it is possible to reduce the time required to deposit a conductive organic layer by forming a conductive layer using spin coating. Furthermore, it is possible to form a conductive organic layer in various shapes by using mask patterns that can be formed on a substrate in various shapes.01-08-2009
20090001356ELECTRONIC DEVICES HAVING A SOLUTION DEPOSITED GATE DIELECTRIC - An electronic device comprises a solution deposited gate dielectric, the gate dielectric comprising a dielectric material formed by polymerizing a composition comprising a polymerizable resin and zirconium oxide nanoparticles.01-01-2009
20090101893Organic Thin Film Transistors - A method of forming an organic thin film transistor comprising source and drain electrodes with a channel region therebetween, a gate electrode, a dielectric layer disposed between the source and drain electrodes and the gate electrode, and an organic semiconductor disposed in at least the channel region between the source and drain electrodes, said method comprising: seeding a surface in the channel region with crystallization sites prior to deposition of the organic semiconductor; and depositing the organic semiconductor onto the seeded surface whereby the organic semiconductor crystallizes at the crystallization sites forming crystalline domains in the channel region.04-23-2009
20080308794Light-emitting device, electronic device, and manufacturing method of light-emitting device - The present invention provides a light-emitting element and a light-emitting device which have high contrast, and specifically, provides a light-emitting device whose contrast is enhanced, not by using a polarizing plate but using a conventional electrode material. Reflection of external light is suppressed by provision of a light-absorbing layer included between a non-light-transmitting electrode and a light-emitting layer. As the light-absorbing layer, a layer is used, which is obtained by adding a halogen atom into a layer including an organic compound and a metal oxide. Further, the light-absorbing layer is formed also over a region in which a thin film transistor for driving a light-emitting element is formed, a region in which a wiring is formed, and the like, and thus light is extracted from the side opposite to the region in which the TFT is formed, thereby reducing reflection of external light.12-18-2008
20120235136ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, sufficiently secures driving stability, and has a simple configuration. The organic EL device of this invention comprises a light-emitting layer between an anode and a cathode piled one upon another on a substrate wherein the light-emitting layer contains a phosphorescent dopant and a 1,9-substituted carbazole compound as a host material. An example of the 1,9-substituted carbazole compound is represented by the following general formula (1). In formula (1), Ar is an aromatic hydrocarbon group or aromatic heterocyclic group; L is an aromatic hydrocarbon group or aromatic heterocyclic group; each of R09-20-2012
20120235135NOVEL IRIDIUM COMPLEX, ORGANIC LIGHT-EMITTING DEVICE, AND IMAGE DISPLAY APPARATUS - There is provided a novel iridium complex having a small half-width of an emission spectrum and an organic light-emitting device that contains the iridium complex. There is provided a novel iridium complex that has a phenyl ring and a pyrazole ring as ligands and that has a basic skeleton in which the phenyl ring is bonded to a triazine ring.09-20-2012
20120235134NOVEL IRIDIUM COMPLEX AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A novel iridium complex includes a ligand including a phenyl ring and a pyrazole ring. The phenyl group is bonded to a triazine ring to form a backbone of the novel iridium complex. An organic light-emitting device includes the novel iridium complex.09-20-2012
20120235133ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, sufficiently secures driving stability, and has a simple configuration. The organic EL device of this invention comprises a light-emitting layer between an anode and a cathode piled one upon another on a substrate and the light-emitting layer contains a phosphorescent dopant and an unsymmetrical indolocarbazole compound as a host material. The unsymmetrical indolocarbazole compound has a structure in which two or more groups having an indolocarbazole structure are linked together by a linking group and at least one of the groups has an isomeric indolocarbazole skeleton different from those of the other groups. Examples of the unsymmetrical indolocarbazole compound include compounds represented by the following formula (2) wherein A is a substituent, each of R09-20-2012
20120235132IRIDIUM COMPLEX COMPOUND, ORGANIC ELECTROLUMINESCENT ELEMENT, AND USES THEREOF - It is an object of the present invention to provide a red phosphorescent compound having a high emission quantum yield, which is used for producing organic EL elements. The red phosphorescent compound of the present invention is an iridium complex compound represented by the following formula (1). In the formula (1), L09-20-2012
20120235131ORGANIC ELECTROLUMINESCENCE ELEMENT, MANUFACTURING METHOD THEREOF, AND ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE - An organic EL element (09-20-2012
20120235130Stilbene Derivatives, Light-Emitting Element and Light-Emitting Device - The present invention provides a novel substance having an excellent color purity of blue, a light-emitting element and a light-emitting device using the novel substance. A stilbene derivative has a structure shown by the general formula (1). In the general formula (1), R09-20-2012
20120235129MATERIAL FOR ORGANIC ELECTROLUMINESCENT DEVICES AND ORGANIC ELECTROLUMINESCENT DEVICES MADE BY USING THE SAME - A material for electroluminescent devices which comprises a compound in which a heterocyclic group having nitrogen is bonded to carbazolyl group and an organic electroluminescent device having at least one organic thin film layer which is sandwiched between the cathode and the anode and contains the above material in at least one layer, are provided. The material can provide organic electroluminescent devices emitting bluish light with a high purity of color. The organic electroluminescence device uses the material.09-20-2012
20120235128ELEMENT SUBSTRATE AND LIGHT EMITTING DEVICE - A light emitting device and an element substrate which are capable of suppressing variations in the luminance intensity of a light emitting element among pixels due to characteristic variations of a driving transistor without suppressing off-current of a switching transistor low and increasing storage capacity of a capacitor. According to the invention, a depletion mode transistor is used as a driving transistor. The gate of the driving transistor is fixed in its potential or connected to the source or drain thereof to operate in a saturation region with a constant current flow. A current controlling transistor which operates in a linear region is connected in series to the driving transistor, and a video signal for transmitting a light emission or non-emission of a pixel is inputted to the gate of the current controlling transistor through a switching transistor.09-20-2012
20120235127ORGANIC LIGHT-EMITTING DIODE, DISPLAY AND ILLUMINATING DEVICE - According to one embodiment, there is provided an organic light-emitting diode including an anode and a cathode which are arranged apart from each other, an emissive layer arranged between the anode and the cathode including a blue emissive layer located at the anode side and a green and red emissive layer located at the cathode side, the blue emissive layer containing a host material and a blue fluorescent dopant, and the green and red emissive layer containing a host material and a green phosphorescent dopant and/or a red phosphorescent dopant.09-20-2012
20120235126Light-Emitting Device and Manufacturing Method Thereof - To provide a method for manufacturing light-emitting devices with different emission colors using EL layers formed using the same apparatus and condition, and a light-emitting device with high added value. A substrate in which a transparent conductive layer is formed in advance on a surface over which an EL layer is to be formed and another substrate in which a transparent conductive layer with a thickness different from that of the transparent conductive layer are prepared, and EL layers are formed over the substrates using the same apparatus and condition. Thus, even when the EL layers are formed using the same apparatus and condition, optical path lengths of the substrates can be different.09-20-2012
20120235125ORGANIC PHOTOVOLTAIC CELL INCORPORATING ELECTRON CONDUCTING EXCITON BLOCKING LAYERS - The present disclosure relates to photosensitive optoelectronic devices comprising a compound blocking layer located between an acceptor material and a cathode, the compound blocking layer comprising: at least one electron conducting material, and at least one wide-gap electron conducting exciton blocking layer. For example, 3,4,9,10 perylenetetracarboxylic bisbenzimidazole (PTCBI) and 1,4,5,8-napthalene-tetracarboxylic-dianhydride (NTCDA) function as electron conducting and exciton blocking layers when interposed between the acceptor layer and cathode. Both materials serve as efficient electron conductors, leading to a fill factor as high as 0.70. By using an NTCDA/PTCBI compound blocking layer structure increased power conversion efficiency is achieved, compared to an analogous device using a conventional blocking layers shown to conduct electrons via damage-induced midgap states.09-20-2012
20120235123NOVEL ORGANIC ELECTROLUMINESCENT COMPOUNDS AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Provided are a novel organic electroluminescent compound and an organic electroluminescent device using the same. More particularly, the organic electroluminescent compound disclosed herein is represented by Chemical Formula 1:09-20-2012
20120235122Organic Memory Element - The invention relates to an organic memory with an electrode and a counter-electrode, comprising at least one oxide layer, an electrically undoped organic layer and an electrically doped organic layer between the electrode and the counter-electrode, wherein the oxide layer is adjacent to the electrode and the undoped organic layer.09-20-2012
20120235121ORGANIC LIGHT EMITTING DEVICE AND METHOD FOR FORMING THE SAME - According to an embodiment of the disclosure, an organic light emitting device is provided, which includes: an inflexible tube comprising an external surface and an internal surface; a transparent conductive layer on the internal surface of the inflexible tube; an organic light emitting layer disposed in the inflexible tube and on the transparent conductive layer; and a conductive layer disposed in the inflexible tube and on the organic light emitting layer. According to an embodiment of the disclosure, a method for forming an organic light emitting device is also provided.09-20-2012
20120235120VERTICAL ELECTRO-OPTICAL COMPONENT AND METHOD OF FABRICATING THE SAME - A vertical electro-optical component and a method for forming the same are provided. The vertical electro-optical component includes a substrate, a first electrode layer formed on the substrate, a patterned insulating layer formed on the first electrode layer, a metal layer formed on the patterned insulating layer, a semiconductor layer formed on the first electrode layer, and a second electrode layer formed on the semiconductor layer, wherein the semiconductor layer encapsulates the patterned insulating layer and the metal layer. The vertical electro-optical component thus has a low operational voltage of a vertical transistor and a high reaction speed of a photo diode, and may be used to form light-emitting transistors.09-20-2012
20110227047ORGANIC PHOTOELECTRIC SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - An organic photoelectric semiconductor device including organic group VA salts in an organic salt-containing layer and a method for manufacturing the same are provided. The organic photoelectric semiconductor device includes: a first electrode; an organic active layer disposed over the first electrode; an organic salt-containing layer disposed over the organic active layer, where the organic salt-containing layer includes quaternary group VA salts of cations represented by the following formula (I) or derivatives thereof and anions; and a second electrode, disposed over the organic salt-containing layer,09-22-2011
20110017987METHOD OF MANUFACTURING ORGANIC ELECTROLUMINESCENT ELEMENT AND WHITE LIGHT-EMITTING ORGANIC ELECTROLUMINESCENT ELEMENT - In the present invention, disclosed is a method of manufacturing an organic electroluminescent element in which at least an anode, a light emission layer and a cathode are laminated, wherein at least one light emission layer possesses two kinds of light-emitting dopants, the method comprising the step of conducting a process in which the organic EL element is subjected to an annealing treatment after forming at least the anode, the at least one light emission layer and the cathode as an element structure. By the method of the present invention, a stably manufacturable organic electroluminescent element exhibiting high light emission efficiency and long lifetime is possible to be prepared, and a white light-emitting organic electroluminescent element is suitably prepared.01-27-2011
20110017980PROCESS AND MATERIALS FOR MAKING CONTAINED LAYERS AND DEVICES MADE WITH SAME - There is provided a process for forming a contained second layer over a first layer, including the steps: 01-27-2011
20110042661CONJUGATED POLYMER, INSOLUBILIZED POLYMER, ORGANIC ELECTROLUMINESCENCE ELEMENT MATERIAL, COMPOSITION FOR ORGANIC ELECTROLUMINESCENCE ELEMENT, POLYMER PRODUCTION PROCESS, ORGANIC ELECTROLUMINESCENCE ELEMENT, ORGANIC EL DISPLAY AND ORGANIC EL LIGHTING - An object of the present invention is to provide a conjugated polymer which has a high hole transportability and is excellent in solubility and depositability. Another object of the present invention is to provide an organic electroluminescence element which is capable of low voltage driving and has a high luminous efficiency and drive stability. The conjugated polymer of the present invention is a conjugated polymer containing a specific structure as the repeating unit, where the conjugated polymer contains an insolubilizing group as a substituent, the weight average molecular weight (Mw) is 20,000 or more and the dispersity (Mw/Mn) is 2.40 or less.02-24-2011
20110042656Electronic Devices and Methods of Making the Same Using Solution Processing Techniques - An electronic device comprising: an electronic substrate comprising circuit elements; a double bank well-defining structure disposed over the electronic substrate, the double bank well-defining structure comprising a first layer of insulating material and a second layer of insulating material thereover, the second layer of insulating material having a lower wettability than the first layer of insulating material; and organic semiconductive material disposed in wells defined by the double bank well-defining structure.02-24-2011
20130207092COMPOUND FOR ORGANIC PHOTOELECTRIC DEVICE AND ORGANIC PHOTOELECTRIC DEVICE INCLUDING THE SAME - A compound for an organic photoelectric device is represented by the following Chemical Formula 1:08-15-2013
20130207097ORGANIC ELECTROLUMINESCENT ELEMENT - Provided is an organic electroluminescent device (EL device) that uses an indolocarbazole compound. The organic EL device includes an anode, a plurality of organic layers including a phosphorescent light-emitting layer, and a cathode laminated on a substrate, in which at least one organic layer selected from the phosphorescent light-emitting layer, a hole-transporting layer, an electron-transporting layer, and a hole-blocking layer contains an indolocarbazole compound represented by the general formula (1). In the general formula (1), a ring I and a ring II represent rings represented by the formula (1a) and the formula (1b), respectively, each of which are fused to an adjacent ring. X's each represent nitrogen or C—Y and at least one of X's represents nitrogen. Y's each represent hydrogen, an alkyl group, a cycloalkyl group, or an aromatic group. A represents an alkyl group, a cycloalkyl group, or an aromatic group. At least one of Y and A represents an alkyl group or a cycloalkyl group. R's each represent hydrogen, an alkyl group, a cycloalkyl group, an aromatic hydrocarbon group, or an aromatic heterocyclic group.08-15-2013
20110031480LIGHT EMITTING DEVICE - A light emitting device includes: a first electrode, a conductor film, an organic layer having a light emitting layer made of an organic light emitting material provided therein, a semi-transmissive reflective film, a resistive layer, and a second electrode, all of which are laminated successively, wherein the conductor film transmits a part of light from the light emitting layer therethrough, the first electrode reflects the light having been transmitted through the conductor film, the second electrode transmits the light having been transmitted through the semi-transmissive reflective film therethrough, an average film thickness of the conductor film on the first electrode is from 1 nm to 6 nm, and an average film thickness of the semi-transmissive reflective film on the organic layer is from 1 nm to 6 nm.02-10-2011
20110031479ENCAPSULATION SUBSTRATE, ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE HAVING THE SAME AND METHOD OF FABRICATING THE SAME - An organic light emitting diode (OLED) display device and method of fabrication that includes a substrate having a device region, an outer dam region and an encapsulation region. The encapsulation region includes an inner dam region, an outer dam region and an encapsulation region that correspond to the device region. An encapsulation agent is formed in the encapsulation region of the encapsulation substrate, and filling dams are formed of the same material in the outer dam region and the inner dam region of the encapsulation substrate.02-10-2011
20100181554ORGANIC EL DISPLAY PANEL - The present invention relates to an organic EL display panel having an organic light emitting layer having a uniform film thickness. The organic EL display panel of the present invention includes: a substrate; linear banks placed on the substrate and defining a linear region on the substrate; and at least two organic EL elements aligned in a row each linear region, and, each of the organic EL elements includes: an anode placed on the substrate; a hole injection layer formed with an metallic oxide and placed on the anode; an organic light emitting layer placed on the hole injection layer; and a cathode placed on the organic light emitting layer. The hole injection layer is concavely curved or convexly curved, the hole injection layer is partly placed under the banks; and the organic light emitting layer is formed by applying an organic light emitting material in the linear region.07-22-2010
20120181523AROMATIC AMINE COMPOUND, AND LIGHT EMITTING ELEMENT, LIGHT EMITTING DEVICE, AND ELECTRONIC DEVICE USING AROMATIC AMINE COMPOUND - An object is to provide an aromatic amine compound with excellent heat resistance. Another object is to provide a light emitting element, a light emitting device, and an electronic device with excellent heat resistance. An aromatic amine compound represented by General Formula (1) is provided. The aromatic amine compound represented by General Formula (1) has a high glass transition point and excellent heat resistance. By using the aromatic amine compound represented by General Formula (1) for a light emitting element, a light emitting device, and an electronic device, a light emitting element, a light emitting device, and an electronic device with excellent heat resistance can be obtained.07-19-2012
20120228592Light-Emitting Element, Light-Emitting Device, and Manufacturing Method of Light-Emitting Element - Provided is a highly reliable light-emitting element in which damage to an EL layer is reduced even when an auxiliary electrode for an upper electrode is provided. Further, a highly reliable light-emitting device in which luminance unevenness is suppressed is provided. The light-emitting element includes a first electrode; an insulating layer over the first electrode; an auxiliary electrode having a projection and a depression on a surface, over the insulating layer; a layer containing a light-emitting organic compound over the first electrode and the auxiliary electrode; and a second electrode over the layer containing the light-emitting organic compound. At least part of the auxiliary electrode is electrically connected to the second electrode.09-13-2012
20090032808ENHANCING PERFORMANCE CHARACTERISTICS OF ORGANIC SEMICONDUCTING FILMS BY IMPROVED SOLUTION PROCESSING - Improved processing methods for enhanced properties of conjugated polymer films are disclosed, as well as the enhanced conjugated polymer films produced thereby. Addition of low molecular weight alkyl-containing molecules to solutions used to form conjugated polymer films leads to improved photoconductivity and improvements in other electronic properties. The enhanced conjugated polymer films can be used in a variety of electronic devices, such as solar cells and photodiodes.02-05-2009
20110278561AROMATIC AMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - To attain an organic electroluminescence device having a long lifetime and high luminous efficiency, and is capable of emitting blue light having a high color purity, and an aromatic amine derivative for realizing the device, the present invention provides an aromatic amine derivative having a specific structure, and an organic electroluminescence device including an organic thin film layer composed of one or more layers including at least a light emitting layer and interposed between a cathode and an anode, in which at least one layer of the organic thin film layer contains the aromatic amine derivative alone or as a component of a mixture.11-17-2011
20110278562LIGHT-EMITTING ELEMENT AND LIGHT EMITTING DEVICE USING THE SAME - The present invention provides a light-emitting element having less increase in driving voltage with the accumulation of light-emission time, and provides a light-emitting element having less increase in resistance value with the increase in film thickness. A light-emitting element includes a first layer, a second layer and a third layer between a first electrode and a second electrode. The first layer is provided to be closer to the first electrode than the second layer, and the third layer is provided to be closer to the second electrode than the second layer. The first layer is a layer including an aromatic amine compound and a substance showing an electron accepting property to the aromatic amine compound. The second layer includes a substance of which an electron transporting property is stronger than a hole transporting property, and a substance showing an electron donating property to the aforementioned substance.11-17-2011
20110278560UV LIGHT-EMISSIVE FLUORENE-BASED COPOLYMERS - A fluorene-based copolymer of formula I includes a monomeric unit that includes a fluorene group and at least one steric hindering chemical group to provide sufficient steric interaction such that the spatial conformation of the fluorene-based copolymer is substantially non-planar. The fluorene-based copolymer exhibits UV light emission.11-17-2011
20110278554Hybrid quantum dot/protein nanostructure, methods of making, and methods of use thereof - Embodiments of the present disclosure include hybrid quantum dot/protein nanostructure, hybrid quantum dot/protein nanostructure systems, methods of using hybrid quantum dot/protein nanostructures, and the like.11-17-2011
20110278559DOPING CONJUGATED POLYMERS AND DEVICES - Compositions comprising at least one hole transport material, such as a conjugated polymer, and at least one dopant, providing improved thermal stability. Compositions can be applied to substrates and used in HIL and HTL layers and organic electronic devices such as light emitting devices such as OLEDs or OPVs. The conjugated polymer can be a polythiophene, including a 3,4-substituted polythiophene or a regioregular polythiophene. The dopant can be a silver salt such as silver tetrakis(pentafluorophenyl)borate. Improved methods of making dopant are provided.11-17-2011
20110278558ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a first electrode, a plurality of hole transport layers, a plurality of intermediate layers, an emission layer, a plurality of electron transport layers, and a second electrode. The emission layer may include a host, an emitting dopant, and an auxiliary dopant. The host and the auxiliary dopant are able to transport different types of carriers.11-17-2011
20110278557ORGANIC LIGHT EMITTING DIODE AND LIGHT SOURCE DEVICE INCLUDING THE SAME - An organic light emitting diode has a reflection electrode, an organic layer with a luminous point, a transparent electrode, an output-side substrate, and a light scattering layer in contact with the output-side substrate. The light scattering layer is made of a base material and particles contained therein. These particles are higher in refractive index than the base material and the output-side substrate. The luminous point emits light at an emission peak wavelength λ (nm). Letting a height from an interface between the electrode and the organic layer to the luminous point be “a×d” (where d (nm) is the thickness of the organic layer, 11-17-2011
20110278556Azaborinine Compounds As Host Materials And Dopants For PHOLEDs - Novel organic compounds comprising azaborine are provided. In particular, the compounds comprise a dibenzo-1,4,-azaborine core having a phenyl substituent on the boron atom, and aryl or heteroaryl substituents at positions 2 and 6 of the phenyl substituent. These compounds may be advantageously used in organic light-emitting devices to provide improved efficiency and lifetime.11-17-2011
20110278555BISCARBAZOLE DERIVATIVE, MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A biscarbazole derivative of the invention is represented by a formula (1A) or (1B) below.11-17-2011
20110278553ORGANIC LIGHT-EMITTING APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting apparatus having high rigidity and preventing deterioration of an organic light-emitting device therein by use of a crosslinking agent including a SiH group in the surface of a core particle.11-17-2011
20110278552MATERIAL FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE USING SAME - The present invention provides a material for an organic electroluminescence device having a specific structure in which a dibennzofuranyl group or a dibenzothiophenyl group is bonded at an N-position (9-position) of a carbazolyl group and an organic electroluminescence device which is provided with one or more organic thin film layers including a light emitting layer between a cathode and an anode and in which at least one layer of the organic thin film layers described above contains the material for an organic electroluminescence device according to the present invention.11-17-2011
20110278551AROMATIC AMINE DERIVATIVE, AND ORGANIC ELECTROLUMINESCENT ELEMENT - Provided are an organic electroluminescence device that not only provides high efficiency but also has a long lifetime, and an aromatic amine derivative that realizes the device. The organic electroluminescence device includes an aromatic amine derivative, including at least one substituent A having dibenzofuran and at least one substituent B selected from groups each having dibenzofuran or carbazole, in a molecule thereof, in which the substituent A and the substituent B include groups different from each other, and the substituent A and the substituent B are bonded to the same nitrogen atom, or different nitrogen atoms, in the molecule. The molecules of the aromatic amine derivative hardly crystallize, which improves a yield in the production of the organic electroluminescence device. In the organic electroluminescence device, including an organic thin film layer formed of one or more layers including at least a light emitting layer, the organic thin film layer being interposed between a cathode and an anode, the aromatic amine derivative is contained in at least one layer, particularly a hole transport layer, in the organic thin film layer.11-17-2011
20110278550ORGANIC LIGHT EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF - An organic light emitting diode (OLED) display includes a display substrate, an encapsulation substrate facing the display substrate; a soft sealant disposed between the display substrate and the encapsulation substrate and adhering the display substrate and the encapsulation substrate to each other; and a brittle sealant connecting a side of the display substrate and a side of the encapsulation substrate. Therefore, the organic light emitting diode (OLED) display does not generate cracks on the attachment surface of the soft sealant and display substrate and encapsulation substrate because the soft sealant has a high fracture toughness even though a stress concentration phenomenon occurs on the attachment surface of the soft sealant, the display substrate and encapsulation substrate. Therefore, it is possible to prevent the display substrate and encapsulation substrate from being easily broken because of the external impact or deformation thereof.11-17-2011
20110278549NEW FUSED CYCLIC COMPOUND AND ORGANIC ELECTRONIC DEVICE - The present invention relates to a new fused cyclic compound, and an organic electronic device using the same.11-17-2011
20110278548MICROLENS FOR ORGANIC EL ELEMENT, ORGANIC EL ELEMENT USING THE SAME, AND MANUFACTURING METHODS THEREOF - A microlens for an organic EL element, which is used by being disposed on a light-emitting surface of the organic EL element, said microlens comprising a cured resin layer having concavities and convexities formed on a surface thereof, wherein when a Fourier-transformed image is obtained by performing two-dimensional fast Fourier transform processing on a concavity and convexity analysis image obtained by analyzing a shape of the concavities and convexities by use of an atomic force microscope, the Fourier-transformed image shows a circular or annular pattern substantially centered at an origin at which an absolute value of wavenumber is 0 μm11-17-2011
20110084260THIN FILM TRANSISTOR ARRAY PANEL USING ORGANIC SEMICONDUCTOR AND A METHOD FOR MANUFACTURING THE SAME - The present invention disclosed an organic thin film transistor, an organic thin film transistor array substrate and an organic thin film transistor display. The present invention disclosed organic materials which is proper for the application to a large screen display. The presentation also disclosed structures and a method for manufacturing such an organic thin film transistor, the organic thin film transistor array substrate and the organic thin film transistor display.04-14-2011
20120097939ORGANIC EL DEVICE, METHOD FOR FABRICATING ORGANIC EL DEVICE, AND ORGANIC EL ILLUMINATION SYSTEM - An organic EL device 04-26-2012
20120097936WHITE ORGANIC LIGHT EMITTING DEVICE - Provided is a white organic light emitting device including an anode, a cathode and an organic layer disposed therebetween, the organic layer having a structure wherein an arrangement of a green emissive layer and a blue emissive layer is formed on both surfaces of a red emissive layer such that the resultant structure is symmetrical around the red emissive layer, and a spacer layer is disposed between opposing surfaces of the blue emissive layer and the green emissive layer, where the white organic light emitting device including this structure exhibits a constant luminescence spectra irrespective of any change in current density. A method of forming the white organic light emitting device is also disclosed.04-26-2012
20120097935POLYCYCLIC DITHIOPHENES - The present invention relates to novel compounds of the formula (I) wherein R04-26-2012
20110006289AROMATIC DIAMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Disclosed is an aromatic diamine derivative represented by the following general formula (I), which has a chrysene structure in which a phenyl group having a substituted or unsubstituted silyl group is a substituent for an amino group. Also disclosed is an organic electroluminescence device including an organic thin film layer formed of one or more layers including at least a light emitting layer and interposed between a cathode and an anode, in which at least one layer of the organic thin film layer contains the aromatic diamine derivative by itself or as a component of a mixture, the device having a long lifetime and high luminous efficiency. (In the formula, R01-13-2011
20120097931Method of Forming Emission Layer of Organic Light Emitting Display Device, Method of Manufacturing Organic Light Emitting Display Device Including Emission Layer, and Organic Light Emitting Display Device Thereof - A method of forming an emission layer by using droplets and an emission part on which charges with opposite polarities are induced, a method of manufacturing an organic light emitting display device including the emission layer, and the organic light emitting display device thereof, the method includes inducing charges having a first charge polarity on emission portions by facing a surface of a mask and a surface of a substrate, contacting the charge inducing units of the mask to the emission portions of the substrate, and then separating the mask from the substrate, supplying droplets exhibiting a second and opposite charge polarity to the substrate and forming the emission layer by allowing droplets exhibiting the second charge polarity to be attracted to and move to the emission portions exhibiting the first charge polarity.04-26-2012
20120097924ORGANIC LIGHT-EMITTING DEVICE - A heterocyclic compound represented by a general Formula 1 and an organic light-emitting device including the heterocyclic compound. In some embodiments the heterocyclic compound of Formula 1 may be used as a light-emitting material, a hole transporting material, or an electron transporting material. The heterocyclic compound of Formula 1 having a heterocyclic group in the molecules thereof has a high glass transition temperature (Tg) or a high melting point due to the inclusion of the heterocyclic group. Thus, the heterocyclic compound has high heat resistance against Joule's heat generated in an organic layer, between organic layers, or between an organic layer and a metal electrode when light emission occurs, and has high durability in high-temperature environments. An organic light-emitting device manufactured using the heterocyclic compound of Formula 1 has high durability when stored or operated. In addition, due to the inclusion of a substituent such as an aryl group or heteroaryl group, molecular layers formed as thin films may be maintained in good condition, thereby improving the characteristics of the organic light-emitting device.04-26-2012
20110133171ARYLAMINE COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE - This invention relates to an arylamine compound having a molecular weight of 1,500 to 6,000 represented by formula (1), and to an organic electroluminescence device having a pair of electrodes and at least one organic layer sandwiched therebetween, wherein the arylamine compound of formula (1) is used as a constituting material of the at least one organic layer:06-09-2011
20110297924AROMATIC AMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT ELEMENT - Provided are a long-lifetime organic electroluminescence device which can be fabricated in an improved yield owing to suppressed crystallization of molecules, and an aromatic amine derivative that realizes the device, i.e., a novel aromatic amine derivative having a specific structure. Specifically provided are an organic electroluminescence device, including an organic thin film layer formed of one or more layers including at least a light emitting layer, the organic thin film layer being interposed between a cathode and an anode, and an aromatic amine derivative for at least one layer of the organic thin film layer, in particular, a hole transporting layer, the derivative having at least one such structure that a substituent in which two or more specific heterocycles are linked to each other, in particular, a substituent in which two or more specific heterocycles are linked through an aryl group is bonded to an amine through an aryl group.12-08-2011
20110260153COMPOUND FOR ORGANIC PHOTOELECTRIC DEVICE, ORGANIC PHOTOELECTRIC DEVICE INCLUDING THE SAME, AND DISPLAY DEVICE INCLUDING THE SAME - A compound for an organic photoelectric device, an organic photoelectric device including the same, and a display device including the same the compound being represented by the following Chemical Formula 1:10-27-2011
20110260145ORGANIC LIGHT-EMITTING DIODES FROM HOMOLEPTIC SQUARE PLANAR COMPLEXES - Homoleptic square planar complexes [M(NΛN)10-27-2011
20110121273CARBON NANOTUBE COMPOSITE, ORGANIC SEMICONDUCTOR COMPOSITE, AND FIELD-EFFECT TRANSISTOR - A carbon nanotube composite in which a conjugated polymer containing repeating units containing a fused heteroaryl unit having a nitrogen-containing double bond in the ring, and a thiophene unit is attached to at least a part of the surface of a carbon nanotube. The present invention reduces the hysteresis of a field-effect transistor having a semiconductor layer containing a carbon nanotube.05-26-2011
20090108255Processing Additives for Fabricating Organic Photovoltaic Cells - Processing additives, as well as related compositions, photovoltaic cells, photovoltaic modules, and methods, are disclosed.04-30-2009
20080217606Organic light emitting diode containing a Ir complex having a novel ligand as a phosphorescent emitter - An organic light emitting diode with Ir complex is disclosed in this specification, wherein the Ir complex is used as the phosphorous emitter. The chemical containing pyridyl triazole or pyridyl imidazole functional group is used as the auxiliary monoanionic bidentate ligand in the mentioned Ir complex, so that the CIE coordinate of the mentioned Ir complex is adjustable and the light emitting performance of the Ir complex is improved.09-11-2008
20110127496Neutral Metallic Dendrimer Complexes - A charge-neutral organometallic dendrimer is described, said dendrimer having the formula (I):06-02-2011
20110017985ELECTRONIC DEVICE UTILIZING FLUORINATED CARBON NANOTUBES - The present invention is an electronic device and a process for making the electronic device in which the semiconductor component comprises at least one carbon nanotube functionalized with a fluorinated olefin. Functionalization with the fluorinated olefin renders the carbon nanotube semiconducting.01-27-2011
20110127497ORGANIC LIGHT EMITTING DEVICE USING GRAPHENE - An organic light emitting device including graphene. The organic light emitting device includes a first electrode that is interposed between a transparent substrate and an organic layer emitting light, and includes graphene having a thickness of about 0.1 nanometer (nm) to about 10 nanometers (nm).06-02-2011
20110068328HALOGEN-CONTAINING PERYLENETETRACARBOXYLIC ACID DERIVATIVES AND THE USE THEREOF - The invention relates to compounds of the formula (I)03-24-2011
20110079772ORGANIC LIGHT-EMITTING DIODE WITH MICROCAVITY INCLUDING DOPED ORGANIC LAYERS AND FABRICATION PROCESS THEREOF - An organic light emitting diode (OLED) emitting light downward through a transparent substrate. The OLED embeds a microcavity formed between a cathode and an anode and includes a plurality of organic layers including a light emitting layer. The plurality of organic layers include at least a first layer made of an organic doped material aimed at enhancing the transport of electrons; and at least a second layer made of an organic doped material aimed at enhancing the transport of holes. The anode is obtained by deposition of a semitransparent layer of silver (Ag) over the transparent substrate to be directly in contact with the first doped organic layer. Then, thicknesses of the first and second doped organic layers can be freely adapted to best adjust the optical characteristics of the microcavity for the wavelength of monochromatic light to be produced by the OLED.04-07-2011
20090152535NOVEL MATERIALS FOR IMPROVING THE HOLE INJECTION IN ORGANIC ELECTRONIC DEVICES AND USE OF THE MATERIAL - A dopant composition for organic semiconductors is an electron acceptor characterized by an evaporation point above 150° C. or a glass phase. The dopant composition includes a compound represented by structural formula (1):06-18-2009
20100051915POLYMER CHARGE TRANSPORT MATERIAL FOR OPTOELECTRONIC DEVICES - Polymers that enable the use of high work-function metals as a cathode in optoelectronic devices and optoelectronic devices incorporating the polymers as an electron transport layer.03-04-2010
20110127511TOP-EMITTING ORGANIC LIGHT-EMITTING DEVICE - A top-emitting organic light-emitting device (OLED) including a reflective first electrode layer; a semitransparent second electrode layer facing the first electrode layer; and an organic layer between the first electrode layer and the second electrode layer, wherein the organic layer comprises a first layer, a second layer, and an emission layer between the first layer and the second layer, wherein the sum of the thicknesses of the emission layer and the second layer is about 0.15 to about 0.30 times the thickness of the entire organic layer. The top-emitting OLED may have high efficiency, and thus driving voltage may be reduced.06-02-2011
20110127513NOVEL NITROGEN-CONTAINING HETEROCYCLIC COMPOUND AND ORGANIC ELECTRONIC DEVICE USING THE SAME - The present invention provides a novel nitrogen-containing heterocyclic derivative and an organic electronic device using the same. The organic electronic device according to the present invention has excellent properties in terms of efficiency, driving voltage, and a life span.06-02-2011
20110127512COPOLYMER AND POLYMER LIGHT EMITTING DEVICE USING THE SAME - A copolymer having a block (A′) composed of a repeating unit represented by the formula (I-1), and/or a block (A) containing a repeating unit represented by the formula (I-1) and a repeating unit represented by the formula (II).06-02-2011
20110127509ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device (OLED) includes a polymeric fluorescent light emitting material doped with a phosphorescent dopant to form a fluorescent light emitting layer. The fluorescent light emitting layer may inhibit or prevent device degradation without affecting light emission from the light emitting layer, and may improve the service life of the OLED.06-02-2011
20110127510Light-Emitting Element, Light-Emitting Device, Electronic Device, and Lighting Device - Objects of the present invention are to provide: a light-emitting element having a long lifetime and good emission efficiency and drive voltage. One embodiment of the invention is a light-emitting element including, between an anode and a cathode, at least a stack structure in which a first layer, a second layer, and a light-emitting layer are provided in order from the anode side. The first layer includes a first organic compound and an electron-accepting compound. The second layer includes a second organic compound having a HOMO level differing from the HOMO level of the first organic compound by from −0.2 eV to +0.2 eV. The light-emitting layer includes a third organic compound having a HOMO level differing from the HOMO level of the second organic compound by from −0.2 eV to +0.2 eV and a light-emitting substance having a hole-trapping property with respect to the third organic compound.06-02-2011
20110127508ORGANIC ELECTRONIC DEVICE AND METHOD OF MANUFACTURE - An organic electronic device (e.g. OLED, OPV, OES, OTFT) is disclosed. The organic electronic device includes a carrier substrate, a first electrode layer disposed on the carrier substrate, an organic active electronic region disposed on the first electrode layer, and an indium second electrode layer disposed and formed on the organic active electronic region by applying heat on an indium solid at a temperature between the melting temperature of indium and a threshold operating temperature of the organic layers to melt the indium solid on the organic active electronic region. The organic active electronic region includes one or more organic layers. A method of manufacturing an organic electronic device is also disclosed.06-02-2011
20110127507METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING DISPLAY APPARATUS, SURFACE TREATMENT DEVICE FOR ORGANIC LIGHT EMITTING DISPLAY APPARATUS, AND ORGANIC LIGHT EMITTING DISPLAY APPARATUS - Provided are a method of manufacturing an organic light emitting display apparatus, a surface treatment device for an organic light emitting display apparatus, and an organic light emitting display apparatus. To easily form organic emissive layers, the method includes: forming a first electrode on a substrate; forming on the first electrode a pixel defining layer having openings that expose predetermined portions of the first electrode; forming a charge carrying layer on the pixel defining layer and the first electrode exposed through the openings; hydrophobically treating portions of a surface of the charge carrying layer selectively, wherein the portions do not correspond to the openings, using a laser; forming organic emissive layers on the charge carrying layer; and forming a second electrode on the organic emissive layers so as to be electrically connected with the organic emissive layers.06-02-2011
20110127506OLED Display Architecture with Improved Aperture Ratio - A device such as a display region that includes a plurality of multi-color pixels is provided. Each pixel may have several types of organic light emitting devices that operate as sub-pixels, and at least one type of device may be shared by multiple pixels. Less-used and/or more efficient device types, such as deep blue and green light emitting devices, may be shared between multiple pixels, leading to an improved aperture ratio and fill factor for the device.06-02-2011
20110127505ORGANIC ELECTROLUMINESCENCE DEVICE AND DISPLAY UNIT - An organic electroluminescence device having high light emitting efficiency and improved reliability is provided. The organic electroluminescence device includes: an anode containing at least aluminum (Al); a cathode; and an organic layer between the anode and the cathode, the organic layer including a light emitting layer. The organic layer has a hole injection layer composed of a sulfonic acid derivative between the anode and the light emitting layer.06-02-2011
20110127504Organic Thin Film Transistors - An organic thin film transistor comprising: a substrate; a source electrode and a drain electrode disposed over the substrate with a channel region therebetween; a layer of organic semiconductor disposed in the channel region; a gate electrode; and a gate dielectric disposed between the layer of organic semiconductor and the gate electrode, wherein the gate dielectric comprises a cross-linked polymer and a fluorine containing polymer.06-02-2011
20110127503COMPOSITION FOR ORGANIC ELECTROLUMINESCENCE ELEMENT, ORGANIC THIN FILM, ORGANIC ELECTROLUMINESCENCE ELEMENT, ORGANIC EL DISPLAY DEVICE AND ORGANIC EL LIGHTING - An organic electroluminescence element comprising a luminescent layer formed by a wet film-forming method, which is a long-life organic electroluminescence element is provided. A composition for an organic electroluminescence element, which comprises: two or more kinds of organic electroluminescence element materials including a luminescent material; and a solvent, wherein the composition satisfies the following formula (1):06-02-2011
20110127502Method of manufacturing organic light emitting display apparatus and organic light emitting display apparatus - A method of manufacturing an organic light emitting display apparatus includes forming first electrodes on a substrate, forming a pixel defining layer (PDL) on the substrate and first electrodes, the PDL including openings exposing predetermined areas of the first electrodes, forming a charge transport layer on the PDL and inside the openings of the PDL, performing a hydrophobic process on the charge transport layer, performing a hydrophilic process on the charge transport layer, such that portions of the charge transport layer corresponding to the openings are made hydrophilic, forming organic light emitting layers on the charge transport layer, and forming a second electrode electrically connected to the organic light emitting layers.06-02-2011
20110127499ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An organic light emitting diode (OLED) display device and a method of fabricating the OLED display device, the OLED display device includes a substrate including an emission region and a non-emission region, a black matrix disposed in a region excluding a part of the emission region, a buffer layer disposed on the entire surface of the substrate, a semiconductor layer disposed on the buffer layer in the non-emission region, a gate electrode disposed on the semiconductor layer, a gate insulating layer insulating the semiconductor layer from the gate electrode and formed on the entire surface of the substrate, a first electrode formed on the gate insulating layer in the emission region, source and drain electrodes electrically connected with the semiconductor layer and the first electrode, an interlayer insulating layer insulating the source and drain electrodes from the gate electrode and opening a part of the first electrode, a pixel defining layer opening a part of the first electrode and disposed on the entire surface of the substrate, an organic layer disposed on the first electrode, and a second electrode disposed on the entire surface of the substrate. Here, the first electrode includes a transparent conductive oxide layer.06-02-2011
20110127501ORGANIC LIGHT-EMITTING DIODE LMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and an electroluminescent layer therebetween. The electroluminescent layer includes: 06-02-2011
20110127500OLED DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting diode (OLED) display apparatus and a method of manufacturing the OLED display apparatus, the apparatus includes anode electrodes having different thicknesses for different types of sub-pixels.06-02-2011
20110127498ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE - An organic light emitting diode (OLED) display device includes a first substrate; a first electrode positioned on the first substrate; an organic light emission layer positioned on the first electrode; a second electrode positioned on the organic light emission layer; and a capping layer positioned on the second electrode to cover the organic light emission layer and including an ultraviolet (UV) interception material intercepting UV rays irradiated to the organic light emission layer from the exterior.06-02-2011
20110024738SUBSTRATE HAVING IMPRINTED STRUCTURE - In a substrate with a hydrophilic surface and a structure made of a conductive and/or light-emitting organic polymer imprinted on the hydrophilic surface, the hydrophilic surface is formed from a layer arranged on the substrate of an oxide ceramic and/or metallic material.02-03-2011
20110127495NEW COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE SAME - The present invention provides a novel compound that is capable of largely improving life span, efficiency, electrochemical stability and thermal stability of the organic light emitting device, and an organic light emitting device in which said compound is included in an organic compound layer.06-02-2011
20110127494OPTOELECTRONIC DEVICE HAVING A SANDWICH STRUCTURE AND METHOD FOR FORMING THE SAME - An optoelectronic device is formed having a sandwich structure, which consists of an inorganic semiconductor layer, an organic semiconductor layer, and another inorganic semiconductor layer, where both of the two inorganic semiconductor layers are produced by a solution process.06-02-2011
20110108812ORGANIC EL DEVICE - According to one embodiment, an organic EL device includes an insulating substrate, switching elements arranged two-dimensionally above the insulating substrate, an insulating layer positioned above the switching elements and provided with contact holes communicating with the switching elements, respectively, pixel electrodes arranged correspondingly with the switching elements, cover members arranged correspondingly with the contact holes, an organic layer extending over the pixel electrodes, the cover members and a portion of the insulating layer positioned below a region between the pixel electrodes, and a counter electrode positioned above the organic layer. Each pixel electrode includes an electrode body positioned above the insulating layer and a contact section extending in the contact hole and electrically connects the electrode body to the switching element. Each cover member covers the contact section and is made of an insulating material.05-12-2011
20100012931POLYCYCLIC COMPOUNDS AND ORGANIC ELECTROLUMINESCENCE DEVICE EMPLOYING THE SAME - Provided are a polycyclic compound of a compound having such a structure that two benzene rings bond to a central benzene ring each other to form a fused ring and another fused ring bonds to a terminal thereof, and an organic electroluminescence device including one or more organic thin film layers containing a light emitting layer between a cathode and an anode, in which at least one of the organic thin film layers includes the polycyclic compound of the present invention. The organic electroluminescence device has high luminous efficiency, no defect in pixels, and long lifetime. In addition, provided is a polycyclic compound realizing the organic electroluminescence device.01-21-2010
20090321729Anthracene Derivatives and Organic Electroluminescent Devices Made by Using the Same - An anthracene derivative represented by the following general formula (1) which enables an organic electroluminescence device to exhibit a great efficiency of light emission and uniform light emission even at high temperatures since crystallization is suppressed and no thermal decomposition takes place during vapor deposition and an organic electroluminescence device utilizing the derivative, are provided.12-31-2009
20110140092CHARGE TRANSPORT COMPOSITIONS AND ELECTRONIC DEVICES MADE WITH SUCH COMPOSITIONS - The present invention relates to charge transport compositions. The invention further relates to electronic devices in which there is at least one active layer comprising such charge transport compositions.06-16-2011
20110140093COMPOUNDS FOR USE IN LIGHT-EMITTING DEVICES - Compounds including optionally substituted Ring Systems 1-4 may be used as hosts in light-emitting devices.06-16-2011
20110140091Electro-optic Diode Devices - A light emissive or photovoltaic device comprising: a cathode structure for injecting electrons, the cathode structure having one or more constituent regions; an anode structure for injecting holes, the anode structure having one or more constituent regions; and an organic light emissive component located between the anode structure and the cathode structure; the refractive indices and the thicknesses of the or each constituent region of the cathode and anode structures and of the light emissive component being such that the emission or absorption spectrum of the device is substantially angularly dependent.06-16-2011
20110140089ORGANIC EL DEVICE - The object of the present invention is to provide an organic EL device having a structure that resolves a problem of trade-off between decrease in a drive voltage and increase in production yield. The organic EL device of the present invention includes a substrate, a pair of electrodes provided on the substrate, and an organic EL layer sandwiched by the pair of electrodes; the pair of electrodes includes a positive electrode and a negative electrode; the organic EL layer includes at least a light-emitting layer and a hole injection layer that is in contact with the positive electrode; the hole injection layer is formed of an n-type semiconductor host material and a p-type semiconductor guest material; a LUMO level E06-16-2011
20110140090ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display is disclosed. The display includes: a substrate; a first electrode positioned on the substrate; an organic emission layer positioned on the first electrode; a second electrode positioned on the organic emission layer; and a semi-transmissive layer positioned between the substrate and the first electrode and having a plurality of refractive layers having different refractive indices.06-16-2011
20100123123ORGANIC THIN-FILM TRANSISTORS - A thin-film transistor comprises a semiconducting layer comprising a semiconducting material selected from Formula (I) or (II):05-20-2010
20090085028HYBRID MATRICES FOR THIN-LAYER TRANSISTORS - The invention relates to a hybrid semiconductor material and to a device containing same.04-02-2009
20100019237Siloxane-Polymer Dielectric Compositions and Related Organic Field-Effect Transistors - Dielectric compositions comprising siloxane and polymeric components, as can be used in a range of transistor and related device configurations.01-28-2010
20100171115ORGANIC ELECTROLUMINESCENCE DISPLAY AND METHOD OF PRODUCING SAME - There is provided an organic electroluminescence display includes a lower electrode formed on a substrate, a device separation film formed on the lower electrode, an organic compound layer formed on the device separation film and including a light emission layer, and an upper electrode formed on the organic compound layer, wherein the device separation film is a polyimide film having an imidation ratio in a range of 65% or more to less than 90%. The display is expected to have longer operating life.07-08-2010
20100171116ORGANIC METAL COMPLEXS DERIVATIVE AND ORGANIC LIGHT EMITTING DEVICE USING THE SAME - The present invention relates to an organometallic complex derivative containing both 8-hydroxy-2-methylquinolato ligand and another ligand containing either Deutrium or Fluorine. The compound can be used for an organic material layer of an organic electronic device or an organic light emitting device.07-08-2010
20100171114METHOD OF FORMING A CROSSED WIRE MOLECULAR DEVICE INCLUDING A SELF-ASSEMBLED MOLECULAR LAYER - A method of forming a crossed wire molecule device comprising a plurality of bottom electrodes, a plurality of top electrodes crossing the bottom electrodes at a non-zero angle, and a self-assembled molecular film chemically bonded to a surface of each of the bottom electrodes is provided. The self-assembled molecular film includes one or more defect sites and a plurality of active device molecules, each of the plurality of active device molecules including a molecular switching moiety having a self-assembling connecting group at one end of the moiety and a linking group at an opposed end of the moiety. The polymeric material chemically bonds to at least some of the linking groups of the plurality of active device molecules, causing the formation of the self-assembled molecular layer covering the plurality of active device molecules and the defect site(s). A molecular switching device is also provided.07-08-2010
20100171113LIGHT-EMITTING MATERIAL COMPRISING ORTHOMETALATED IRIDIUM COMPLEX, LIGHT-EMITTING DEVICE, HIGH EFFICIENCY RED LIGHT-EMITTING DEVICE, AND NOVEL IRIDIUM COMPLEX - An organic light-emitting device comprising a light-emitting layer or a plurality of thin organic compound layers containing a light emitting layer interposed between a pair of electrodes, wherein at least one layer comprises at least one light emitting material containing a compound having a partial structure represented by following formula (21) or a tautomer thereof:07-08-2010
20100171112Light-Emitting Element, Light-Emitting Device and an Electronic Device - The present invention provides a light-emitting element including an electron-transporting layer and a hole-transporting layer between a first electrode and a second electrode; and a first layer and a second layer between the electron-transporting layer and the hole-transporting layer, wherein the first layer includes a first organic compound and an organic compound having a hole-transporting property, the second layer includes a second organic compound and an organic compound having an electron-transporting property, the first layer is formed in contact with the first electrode side of the second layer, the first organic compound and the second organic compound are the same compound, and a voltage is applied to the first electrode and the second electrode, so that both of the first organic compound and the second organic compound emit light.07-08-2010
20100171111ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device is provided and includes: a pair of electrodes; and a light emitting layer between the electrodes. The organic electroluminescent device has a layer containing a compound represented by formula (I).07-08-2010
20100171110METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - Method for manufacturing a semiconductor device, which may include (a) forming a coating film on a substrate by applying a coating liquid including a polymer conductive material dissolved in an insulating solvent on the substrate after the step (a); (b) heat-treating the coating film; and (c) forming, before or after the steps (a) and (b), a gate electrode on the substrate. Herein, a surface layer portion is an insulating layer, and an inner layer portion is an organic semiconductor layer, and the surface layer portion and the inner layer portion are formed separate from each other to allow the surface layer portion and the inner layer portion to be used as a gate insulating film and a channel of a field-effect transistor, respectively.07-08-2010
20100133516CARBON NANO TUBE THIN FILM TRANSISTOR AND DISPLAY ADOPTING THE SAME - Provided are a flexible and transparent carbon nano tube (CNT) thin film transistor using a degradable polymer substrate, and a display adapting the CNT thin film transistor. The polymer substrate is formed of a polymer material that is naturally degraded, and a CNT channel, where a semiconductive CNT is dispersed on a transparent organic material, is prepared on the polymer substrate. Source and drain electrodes, where a conductive CNT is ejected on a transparent organic material, are connected to both sides of the CNT channel. A gate, where a conductive CNT is dispersed on a transparent organic material, is disposed on or below the CNT channel, and a gate insulation layer including a transparent organic material is disposed between the CNT channel and the gate.06-03-2010
20100171109ORGANIC EL DEVICE - An organic EL device includes: an anode for injecting holes; a phosphorescent-emitting layer; a fluorescent-emitting layer; and a cathode for injecting electrons. The phosphorescent-emitting layer contains a phosphorescent host and a phosphorescent dopant for phosphorescent emission. The fluorescent-emitting layer contains a fluorescent host and a fluorescent dopant for fluorescent emission. The phosphorescent host has a substituted or unsubstituted polycyclic fused aromatic skeleton and has a triplet energy gap of 2.0 eV to 3.0 eV.07-08-2010
20100171108USE OF N,N'-BIS(1,1-DIHYDROPERFLUORO-C3-C5-ALKYL)-PERYLENE-3,4:9,10- TETRACARBOXYLIC DIIMIDES - The present invention relates to the use of N,N′-bis(1,1-dihydroperfluoro-C07-08-2010
20100171106ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display including: a substrate; a plurality of pixel electrodes formed on the substrate; a pixel defining layer formed on the substrate, having openings exposing the pixel electrodes; a plurality of spacers disposed on the pixel defining layer; organic emission layers formed on the pixel electrodes; a common electrode formed on the organic emission layers; and a capping layer formed on the common electrode, to cover the organic emission layers.07-08-2010
20110284830POLYMER AND POLYMER-NANOPARTICLE COMPOSITIONS - A polymer-nanoparticle composition of formula II includes a polymer of formula I. The polymer has two portions. One portion of the polymer includes a binding group that binds to a nanoparticle. The other portion of the polymer includes a hydrophobic moiety.11-24-2011
20100171105ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display includes a substrate, a thin film transistor on the substrate and including a gate electrode, a source electrode, and a drain electrode, a planarization layer on the thin film transistor and having a contact hole exposing a portion of one of the drain electrode or the source electrode, a pixel electrode on the planarization layer and coupled to the one of the drain electrode or the source electrode through the contact hole, a colored pixel defining layer on the planarization layer and including an opening exposing at least a portion of the pixel electrode, and a colored layer on the pixel electrode and the pixel defining layer and having a chromatic color different from a chromatic color of the pixel defining layer.07-08-2010
20100171104ORGANIC ELECTROLUMINESCENCE DEVICE AND DISPLAY USING THE DEVICE - An organic EL device comprising an anode, a cathode, and an organic layer composed of at least two layers including a hole transporting layer and a light emitting layer, wherein at least one of the anode and the cathode is transparent or semitransparent, the organic layer, is disposed in contact with the anode between the anode and the cathode, at least a portion of the surface of the anode, the portion being in contact with the organic layer, is treated with a specific organic compound, and/or, a layer that constitutes the organic layer and that is in contact with the anode contains the organic compound; a sheet light source, a segment display and a dot matrix display having the above-described organic EL device, or a liquid crystal display having a backlight composed of the above-described organic EL device.07-08-2010
20100171102FLUORINE-CONTAINING POLYCYCLIC AROMATIC COMPOUND, FLUORINE-CONTAINING POLYMER, ORGANIC THIN FILM AND ORGANIC THIN FILM DEVICE - A fluorine-containing polycyclic aromatic compound represented by the following formula (I) is provided. According to present invention, a novel compound capable of being utilized as an organic n-type semiconductor having an excellent electron transport property is provided,07-08-2010
20100171101ORGANIC ELECTROLUMINESCENT ELEMENT, METHOD OF MANUFACTURING ORGANIC ELECTROLUMINESCENT ELEMENT, LIGHTING DEVICE, AND DISPLAY DEVICE - An objective in the present invention is to provide an organic EL element exhibiting high emission efficiency and long lifetime, together with a lighting device and a display device thereof. In the present invention, disclosed is an organic electroluminescent element comprising a support substrate provided thereon an anode and a cathode, the organic electroluminescent element comprising an organic layer containing a reactive organic compound between the anode and the cathode, wherein the reactive organic compound contained in the organic layer has nonuniform concentration at any point in time between termination of a process of preparing the organic electroluminescent element and a start of electricity application to the organic electroluminescent element.07-08-2010
20100171100POLYMERIC MATERIAL AND POLYMERIC LUMINESCENT ELEMENT - A luminescent or charge-transporting polymer which has in the backbone optionally substituted fluorenediyl groups as repeating units and further has a functional side chain comprising at least one functional group selected from the group consisting of a hole-injection/transporting group containing one or more heteroatoms other than nitrogen or two or more nitrogen atoms, an electron-injection/transporting group containing one or more heteroatoms other than nitrogen or two or more nitrogen atoms, and a luminescent group comprising a fused aromatic hydrocarbon or heterocycle, characterized in that the functional group is directly bonded to the saturated carbon atom of any of the fluorenediyl groups or is bonded to any of the fluorenediyl groups through —R07-08-2010
20100171099Carbon Nanotube Transistor Structure - A carbon nanotube transistor structure includes a number of carbon nanotubes extending vertically in a substrate material. A drain electrode of the transistor is connected to the carbon nanotubes at a first depth position, and a source electrode for the transistor structure connected to the carbon nanotubes at a second depth position. A gate electrode extends vertically along a side of the nanotubes, between the first and second depth positions. There may be multiple vertical side gate electrodes and multiple carbon nanotubes between these side gate electrodes.07-08-2010
20100244014ELECTROLUMINESCENT METAL COMPLEXES WITH TRIAZOLES AND BENZOTRIAZOLES - This invention relates to electroluminescent metal complexes with triazoles and benzotriazoles, respectively of the formula09-30-2010
20110297922Radiation-Emitting Device - A radiation-emitting device for emitting electromagnetic radiation which is a mixture of at least three different partial radiations of a first, a second and a third wavelength range. The radiation-emitting device here comprises a substrate 12-08-2011
20110315971METHOD FOR MANUFACTURING ORGANIC ELECTROLUMINESCENT DEVICE - A method for manufacturing an organic electroluminescent device that comprises a substrate, a plurality of organic electroluminescent elements provided on the substrate, and a partition sectioning the plurality of organic electroluminescent elements, in which the plurality of organic electroluminescent elements comprise a light-emitting layer formed by a coating method and a pair of electrodes, and include a red light-emitting layer, a green light-emitting layer or a blue light-emitting layer emitting blue light as the light-emitting layer, the method comprising a step of preparing the partition having lyophilic properties and the substrate provided with one electrode of the pair of electrodes, ink supplying steps of supplying various inks, a step of solidifying the supplied inks, and a step of forming the other electrode of the pair of electrodes, wherein a red ink supplying step is performed at the last among the ink supplying steps.12-29-2011
20120007061Luminescent Cyclometallated Iridium(III) Complexes Having Acetylide Ligands - The present invention relates to phosphorescent (triplet-emitting) organometallic materials. The phosphorescent materials of the present invention comprise Ir(III)cyclometallated alkynyl complexes for use as triplet light-emitting materials. The Ir(III)cyclometallated alkynyl complexes comprise at least one cyclometallating ligand and at least one alkynyl ligand bonded to the iridium. Also provided is an organic light emitting device comprising an anode, a cathode and an emissive layer between the anode and the cathode, wherein the emissive layer comprises a Ir(III)cyclometallated alkynyl complex as a triplet emitting material.01-12-2012
20120007059ORGANIC ELECTROLUMINESCENCE ELEMENT AND COMPOUND - An organic electroluminescence device composed of a cathode, an anode, and an organic thin film layer between the cathode and the anode. The organic thin film layer includes one or more layers. At least one layer of the organic thin film layer is a light emitting layer and at least one light emitting layer contains a compound which is asymmetric with respect to the central benzene ring and a phosphorescent emitting material. The compound provides an organic electroluminescence device with long lifetime and high current efficiency.01-12-2012
20120007058Organic memory device using iridium organometallic compound and fabrication method thereof - Disclosed are a composition comprising a mixture of at least one iridium organometallic compound and an electrically conductive polymer, an organic active layer comprising the same, an organic memory device comprising the organic active layer and methods for fabricating the same. The organic memory device may include a first electrode, a second electrode and the organic active layer between the first and second electrodes. The organic memory device possesses the advantages of rapid switching time, decreased operating voltage, decreased fabrication costs, increased reliability and improved non-volatility.01-12-2012
20110284833Electroluminescent Device - An electroluminescent element which comprises host materials and guest materials in a part of an electroluminescent layer, and which is superior in device characteristics such as luminous efficiency and luminous characteristics to those of the conventional electroluminescent element is provided. According to the present invention, device characteristics (luminous efficiency, luminous characteristics, or the like) of an electroluminescent element is improved by using host materials and guest materials which have a common skeleton (represented by the following general formula 1) for an electroluminescent layer interposed between a pair of electrodes in the electroluminescent element.11-24-2011
20110284828ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, fully secured of high driving stability, and of a simple structure. The organic EL device is constituted of an anode, organic layers containing a phosphorescent light-emitting layer, and a cathode piled one upon another on a substrate and a phosphine oxide derivative represented by general formula (1) is contained in a phosphorescent light-emitting layer, an electron-transporting layer, a hole-blocking layer, or an exciton-blocking layer. In general formula (1), L11-24-2011
20100258789ELECTROLUMINESCENT DEVICE - The present invention provides an EL device that contains a quantum-dots-containing layer in which quantum dots hardly coagulate even under high-temperature conditions, e.g., at a temperature of 90° C. or more, that has a good performance even if heat treatment was carried at a high temperature in its production process, that can retain its emission characteristics for a prolonged period of time, and that has high durability.10-14-2010
20120104379ORGANIC COMPOUND, ANTHRACENE DERIVATIVE, AND LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, AND ELECTRONIC DEVICE USING ANTHRACENE DERIVATIVE - Objects of the present invention are to provide novel anthracene derivatives and novel organic compounds; a light-emitting element that has high emission efficiency; a light-emitting element that is capable of emitting blue light with high luminous efficiency; a light-emitting element that is capable of operation for a long time; and a light-emitting device and an electronic device that have lower power consumption. An anthracene derivative represented by a general formula (1) and an organic compound represented by a general formula (17) are provided. A light-emitting element that has high emission efficiency can be obtained by use of the anthracene derivative represented by the general formula (1). Further, a light-emitting element that has a long life can be obtained by use of the anthracene derivative represented by the general formula (1).05-03-2012
20110284827INDENOFLUORENEDIONE DERIVATIVE, MATERIAL FOR ORGANIC ELECTROLUMINESCENT ELEMENT, AND ORGANIC ELECTROLUMINESCENT ELEMENT - An indenofluorenedione derivative having a specific structure, which is useful as a material for organic electroluminescence devices because the derivative is excellent in heat resistance and can be vapor-deposited on a substrate at moderate temperature. An organic electroluminescence device including an anode, a cathode, and an organic thin layer between the anode and the cathode, which contains the material for organic electroluminescence devices in the organic thin layer, is driven at a low driving voltage and has a long lifetime.11-24-2011
20110284835Quinoxaline Derivative, and Light-Emitting Element, Light-Emitting Device, and Electronic Device Using the Same - The present invention provides a quinoxaline derivative represented by a general formula (G1). In the formula, α11-24-2011
20110284834Light-Emitting Element and Light-Emitting Device - To provide a light-emitting element, a light-emitting device, and an electronic device each formed using the organometallic complex represented by General Formula (G1) as a guest material and a low molecule compound as a host material.11-24-2011
20110284832COMPOUND FOR ORGANIC OPTOELECTRONIC DEVICE, ORGANIC LIGHT EMITTING DIODE INCLUDING THE SAME AND DISPLAY INCLUDING THE ORGANIC LIGHT EMITTING DIODE - A compound for an organic photoelectric device, the compound being represented by the following Chemical Formula 1:11-24-2011
20110284829POLYMER COMPOUND AND LIGHT EMITTING DEVICE USING THE SAME - A polymer compound having a repeating unit represented by the following formula (1):11-24-2011
20110284826Dyketopyrrolopyrrole polymers for use in organic semiconductor devices - The present invention relates to polymers comprising one or more (repeating) unit(s) of the formula11-24-2011
20090278115NITROGEN-CONTAINING HETEROCYCLIC DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE ELEMENT USING THE SAME - A novel nitrogen-containing heterocyclic derivative having a specific structure and an organic electroluminescence device comprising an anode, a cathode and an organic thin film layer which comprises a single layer or a plurality of layers comprising at least a light emitting layer and is disposed between the anode and the cathode, wherein at least one layer in the organic thin film layer comprises the above nitrogen-containing heterocyclic derivative singly or as a component of a mixture. The organic electroluminescence device exhibits a great luminance of emitted light and a great efficiency of light emission even under application of a low voltage.11-12-2009
20110284825ORGANIC LIGHT-EMITTING DIODES - Disclosed is an organic light-emitting diodes including a ZnO nanoparticle and an ionic group. The organic light-emitting diodes according to the present invention includes: 11-24-2011
20110297918BENZANTHRACENE COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A compound having the structure represented by the following formula (1) or (1)′ as at least a part:12-08-2011
20110297925ORGANIC ELECTRONIC DEVICE - The present invention relates to organic electroluminescent devices which comprise aromatic nitrogen heterocyclic compounds, in particular in a hole-injection layer and/or in a hole-blocking layer and/or in an electron-transport layer and/or in an emitting layer.12-08-2011
20110297926Electronic Appliance and Light-Emitting Device - An EL element having a novel structure is provided, which is suitable for AC drive. A light-emitting element of the invention is provided with material layers (material layers each having approximately symmetric I-V characteristics with respect to the zero point in a graph having the abscissa axis showing current values and the ordinate axis showing voltage values) between a first electrode and a layer including an organic compound and between the layer including the organic compound and a second electrode respectively. Specifically, each of the material layers is a composite layer including a metal oxide and an organic compound.12-08-2011
20110297917ORGANIC ELECTROLUMINESCENT ELEMENT AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an organic EL element, which may be a top-emitting or a transparent organic EL element, provides an organic EL element having a low driving voltage and a high efficiency. The organic EL element includes a substrate; an anode; an organic EL layer which includes at least an emissive layer, an electron transport layer and a damage-mitigating electron injection layer; and a transparent cathode composed of a transparent conductive oxide material, the damage-mitigating electron injection layer is in contact with the transparent cathode, and the damage-mitigating electron injection layer includes a crystalline oligothiophene compound.12-08-2011
20110297923Aromatic amine derivative and organic electroluminescent element using same - An aromatic amine derivative represented by the following formula (1):12-08-2011
20110297921WATER-BARRIER ENCAPSULATION METHOD - The present invention generally relates to organic light emitting diode (OLED) structures and methods for their manufacture. To increase the lifetime of an OLED structure, an encapsulating layer may be deposited over the OLED structure. The encapsulating layer may fully enclose or “encapsulate” the OLED structure. The encapsulating layer may have a substantially planar surface opposite to the interface between the OLED structure and the encapsulating layer. The planar surface permits successive layers to be evenly deposited over the OLED structure. The encapsulating layer reduces any oxygen penetration into the OLED structure and may increase the lifetime of the OLED structure.12-08-2011
20110297920THIN FILM TRANSISTOR,METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC DEVICE - A thin film transistor with improved performance is provided. The thin film transistor includes a gate electrode, an organic semiconductor layer, and a gate insulating layer which is positioned between the gate electrode and the organic semiconductor layer and is adjacent to the organic semiconductor layer. The gate insulating layer contains a material in which a first monomer as at least one of styrene and a derivative of styrene, and a second monomer having carbon-carbon double bond and a cross-linking reaction group are copolymerized and cross-linked.12-08-2011
20110297919ORGANIC LIGHT-EMITTING DEVICE - A heterocyclic compound represented by Formula 1 or Formula 2 below and an organic light-emitting device including the heterocyclic compound:12-08-2011
20120153271LEAVING SUBSTITUENT-CONTAINING COMPOUND, ORGANIC SEMICONDUCTOR MATERIAL, ORGANIC SEMICONDUCTOR FILM CONTAINING THE MATERIAL, ORGANIC ELECTRONIC DEVICE CONTAINING THE FILM, METHOD FOR PRODUCING FILM-LIKE PRODUCT, PI-ELECTRON CONJUGATED COMPOUND AND METHOD FOR PRODUCING THE PI-ELECTRON CONJUGATED COMPOUND - A leaving substituent-containing compound including a partial structure represented by the following General Formula (I): where a pair of X06-21-2012
20120153267ORGANIC ELECTROLUMINESCENT DEVICE - An organic EL device 06-21-2012
20110291084Display Device and Backplane - A display device comprises a plurality of electroluminescent display pixels and a plurality of semiconductor elements (“chiplets”), each pixel being electrically connected to the output of one or more of said semiconductor elements through a via hole in an electrically insulating layer for addressing the plurality of display pixels, and a plurality of colour filters and/or downconverters. The colour filters and/or downconverters and the semiconductor elements are provided on the same surface of the device.12-01-2011
20110291080Electronic Device - An electronic device comprising a substrate, a first electrode, at least one organic functional layer, and a second electrode is indicated. The organic functional layer comprises a first, a second, and a third matrix material, wherein the first matrix material has a larger band gap than the second and the third matrix materials.12-01-2011
20100264409MOLECULAR DEVICE, IMAGING DEVICE, PHOTOSENSOR, AND ELECTRONIC APPARATUS - A molecular device includes a gold electrode, cytochrome c552 or a derivative or variant thereof immobilized on the gold electrode, and an electron transfer protein coupled to the cytochrome c552 or the derivative or variant thereof. Electrons or holes, or both, are transferred through the electron transfer protein by transition of electrons between molecular orbitals of the electron transfer protein.10-21-2010
20100090201ORGANIC THIN FILM TRANSISTORS - A thin film transistor having an improved gate dielectric layer is disclosed. The gate dielectric layer comprises a poly(hydroxyalkyl acrylate-co-acrylonitrile) based polymer. The resulting gate dielectric layer has a high dielectric constant and can be crosslinked. Higher gate dielectric layer thicknesses can be used to prevent current leakage while still having a large capacitance for low operating voltages. Methods for producing such gate dielectric layers and/or thin film transistors comprising the same are also disclosed.04-15-2010
20100090205ACTIVE MATRIX DISPLAY APPARATUS - An active matrix display apparatus including a transistor 04-15-2010
20100090208THIN FILM TRANSISTOR SUBSTRATE, METHOD OF MANUFACTURING THE SAME, AND DISPLAY APPARATUS HAVING THE SAME - In a method of manufacturing a thin film transistor substrate, a semiconductor pattern is formed on a substrate, a first etch stop layer and a second etch stop layer are sequentially formed on the semiconductor pattern, and the second etch stop layer and the first etch stop layer are sequentially patterned to form a second etch stop pattern and a first etch stop pattern. Thus, when the second etch stop layer is patterned using an etchant, the first etch stop layer covers the semiconductor pattern, thereby preventing the semiconductor pattern from being etched by the etchant.04-15-2010
20120012828ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device includes a substrate; an encapsulation substrate; an organic light-emitting unit interposed between the substrate and the encapsulation substrate; and a layer having an UV shielding capability interposed between the encapsulation substrate and the organic light-emitting unit.01-19-2012
20120012821SILYL- AND HETEROATOM-SUBSTITUTED COMPOUNDS SELECTED FROM CARBAZOLES, DIBENZOFURANS, DIBENZOTHIOPHENES AND DIBENZOPHOSPHOLES, AND USE THEREOF IN ORGANIC ELECTRONICS - The present invention relates to silyl- and heteroatom-substituted compounds selected from carbazoles, dibenzofurans, dibenzothiophenes and disilylbenzophospholes of the formula (I) or (I*), to the use of the compounds of the formula (I) or (I*) in organic electronics applications, preferably in organic light-emitting diodes, to an organic light-emitting diode comprising at least one compound of the formula (I) or (I*), to a light-emitting layer comprising at least one compound of the formula (I) or (I*), to a blocking layer for holes/excitons comprising at least one compound of the formula (I) or (I*), and to an apparatus selected from the group consisting of stationary visual display units, mobile visual display units, illumination units, keyboards, items of clothing, furniture and wallpaper, comprising at least one inventive organic light-emitting diode.01-19-2012
20110291087LIGHT-EMITTING ELEMENT, DISPLAY DEVICE, AND METHOD FOR MANUFACTURING LIGHT-EMITTING ELEMENT - A light emitter and a method of manufacturing a light emitter. The light emitter includes a first electrode, a charge injection transport layer, a light-emitting layer, and a second electrode that are layered in this order. At least the light-emitting layer is defined by a bank that has at least one liquid-repellent surface. The charge injection transport layer is principally composed of a metal compound that is more liquid-philic than the surface of the bank. The charge injection transport layer includes a recessed structure so that in a region defined by the bank, the charge injection transport layer is lower than a bottom surface of the bank.12-01-2011
20110291088Light Emitting Device - It is an object of the invention to provide a light emitting device which can display a superior image in which luminescent color from each light emitting layer is beautifully displayed and power consumption is lowered in a light emitting element in which light emitting layers are stacked. One feature of the invention is that, in a light emitting element which comprises light emitting layers stacked between electrodes, each distance between each light emitting layer and an electrode is approximately oddly multiplied ¼ wavelength by controlling a thickness of a layer provided therebetween to enhance luminous output efficiency. Another feature of the invention is that a drive voltage is lowered using a high conductive material for the layer compared with a conventional element.12-01-2011
20110291082ORGANIC LIGHT EMITTING ELEMENT - An organic light emitting element includes a pair of electrodes at least one of which has visible light transmittance; and an organic EL layer provided between the pair of electrodes. The organic EL layer includes at least an organic light emitting layer that emits light when a voltage is applied between the pair of electrodes. The organic light emitting layer includes an electron transport host material; and at least first and second guest materials. Each of the first and second guest materials has an emission peak in a blue to blue-green color region. The electron transport host material has an ionization potential (IPH) and an electron affinity (AFH), and the first guest material has an ionization potential (IPG1) and an electron affinity (AFG1) that satisfy Expression (1): IPH≦IPG1 and AFH12-01-2011
20110291081MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - An organic EL device material includes at least a unit including 3,5-biscarbazolylphenyl group, a unit including 4-carbazolylphenyl group, and a compound including a unit including a nitrogen-containing aromatic heterocyclic ring bonding the unit including 3,5-biscarbazolylphenyl group and the unit including 4-carbazolylphenyl group.12-01-2011
20110291079SURFACE PLASMON-MEDIATED ENERGY TRANSFER OF ELECTRICALLY-PUMPED EXCITONS - An electrically pumped light emitting device emits a light when powered by a power source. The light emitting device includes a first electrode, a second electrode including an outer surface, and at least one active organic semiconductor disposed between the first and second electrodes. The device also includes a dye adjacent the outer surface of the second electrode such that the second electrode is disposed between the dye and the active organic semiconductor. A voltage applied by the power source across the first and second electrodes causes energy to couple from decaying dipoles into surface plasmon polariton modes, which then evanescently couple to the dye to cause the light to be emitted.12-01-2011
20110291077Enhanced Semiconductor Devices Employing Photoactive Organic Materials And Methods Of Manufacturing Same - Methods and apparatus provide for a transistor, including: a semiconductor layer including molecules, protons, and/or ions, etc. diffused therein from a photoactive material; a channel disposed on or in the semiconductor layer; a source disposed on or in the semiconductor layer; a drain disposed on or in the semiconductor layer; and a gate electrically coupled to the semiconductor layer.12-01-2011
20110291076ARTICLES CONTAINING COATINGS OF AMIC ACID SALTS - An article includes a flexible or rigid substrate and dry layer comprising an aromatic, non-polymeric amic acid salt that can be thermally converted to a corresponding arylene diimide. Upon conversion of the aromatic, non-polymeric amic acid salt, the dry layer has semiconductive properties and can be used in various devices including thin-film transistor devices.12-01-2011
20110108819COMPOUNDS HAVING ELECTRON TRANSPORT PROPERTIES, THEIR PREPARATION AND USE - The invention provides new compounds of the formula I, II or III. These compounds can be used as electron transport materials in optical light emitting diodes (OLEDs). The compounds of the formula I, II and III are as follows:05-12-2011
20110291086LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE COMPRISING LIGHT-EMITTING ELEMENT, AND METHOD FOR MANUFACTURING LIGHT-EMITTING ELEMENT - A hole injection layer and a light-emitting layer are laminated between a first electrode and a second electrode of a light emitter. A bank defines an area in which the light-emitting layer is to be formed. In the area defined by the bank, a hole injection layer has a recess in an upper surface thereof. An upper peripheral edge of the recess is covered with a part of the bank.12-01-2011
20110291085METHOD FOR MANUFACTURING LIGHT-EMITTING ELEMENT, LIGHT-EMITTING ELEMENT, METHOD FOR MANUFACTURING LIGHT-EMITTING DEVICE, AND LIGHT-EMITTING DEVICE - A method for manufacturing a light-emitting element. An anode is formed on a main surface of a substrate. A hole-injection layer is formed at least above the anode. At least the hole-injection layer is covered with a protective film. A bank which is provided with an aperture through which a portion of the protective film is exposed, is formed on the protective film by a wet process. The portion of the protective film exposed through the aperture is removed so that a portion of the hole-injection layer is exposed, a light-emitting layer is formed on the hole-injection layer exposed through the aperture, and a cathode is formed above the light-emitting layer. The protective film is resistant to a fluid used during the wet process.12-01-2011
20110168989High-molecule-based organic light-emitting diode and fabrication method thereof - The present invention discloses a high-molecule-based organic light-emitting diode (OLED) and a fabrication method thereof. The high-molecule-based OLED comprises a layer selected from a group consisting of an organic emissive layer, a first emission-auxiliary layer and a second emission-auxiliary layer. The organic emissive layer, first emission-auxiliary layer or second emission-auxiliary layer comprises a molecular material having a molecular weight of larger than approximately 730 g mol07-14-2011
20100213457Light-Emitting Element, Light-Emitting Device, and Electronic Device - A light-emitting element disclosed in the present invention includes a light-emitting layer and a first layer between a first electrode and a second electrode, in which the first layer is provided between the light-emitting layer and the first electrode. The present invention is characterized by the device structure in which the first layer comprising a hole-transporting material is doped with a hole-blocking material or an organic compound having a large dipole moment. This structure allows the formation of a high performance light-emitting element with high luminous efficiency and long lifetime. The device structure of the present invention facilitates the control of the rate of the carrier transport, and thus, leads to the formation of a light-emitting element with a well-controlled carrier balance, which contributes to the excellent characteristics of the light-emitting element of the present invention.08-26-2010
20090166610MEMORY CELL WITH PLANARIZED CARBON NANOTUBE LAYER AND METHODS OF FORMING THE SAME - In some aspects, a method of fabricating a memory cell is provided that includes (1) fabricating a first conductor above a substrate; (2) fabricating a carbon nano-tube (CNT) material above the first conductor; (3) depositing a dielectric material onto a top surface of the CNT material; (4) planarizing the dielectric material to expose at least a portion of the CNT material; (5) fabricating a diode above the first conductor; and (6) fabricating a second conductor above the CNT material and the diode. Numerous other aspects are provided.07-02-2009
20100102303ORGANIC SEMICONDUCTOR, PHOTOELECTRIC CONVERSION DEVICE, IMAGING DEVICE AND NOVEL COMPOUNDS - Provided is an organic semiconductor which is a compound represented by the following formula (I):04-29-2010
20120097938POLYMERS COMPRISING STRUCTURAL UNITS WHICH CONTAIN ALKYLALKOXY GROUPS, BLENDS COMPRISING THESE POLYMERS, AND OPTO-ELECTRONIC DEVICES COMPRISING THESE POLYMERS AND BLENDS - The present invention relates to polymers comprising structural units which contain alkylalkoxy groups, and blends which comprise the polymers according to the invention. The invention is also directed to the use of the polymers and blends according to the invention in opto-electronic devices and to these devices themselves.04-26-2012
20120097937MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE UTILIZING THE SAME - A material for organic electroluminescence devices of the invention which is for use in combination with at least one phosphorescent metal complex has a specific heterocyclic structure. The material for organic electroluminescence devices is used as a host material or a hole transporting material. An organic electroluminescence device having an anode, a cathode and an organic thin film layer having one or more layers which is interposed between the anode and cathode, in which at least one layer of the organic thin film layer contains the material for organic electroluminescence devices, has a high emitting efficiency, causes little pixel defects, is excellent in heat resistance, and shows a long lifetime.04-26-2012
20090179196Pyrene-Based Organic Compound, Transistor Material and Light-Emitting Transistor Device - The object is to provide a light-emitting transistor material which is high in both luminescent property and mobility when used as a light-emitting transistor device.07-16-2009
20120097934Organic Light Emitting Diode and Method of Fabricating the Same - An organic light emitting diode includes a first electrode on a substrate; a hole transporting layer on the first electrode; a light emitting material layer on the hole transporting layer; an electron transporting layer on the light emitting material layer and doped with a metal; a second electrode on the electron transporting layer; and a buffer layer between the electron transporting layer and the second electrode and using an organic material of a triphenylene skeleton including substituted or nonsubstituted heteroatom, or a substituted or nonsubstituted Pyrazino quinoxaline derivative compound.04-26-2012
20120097933ORGANIC EL DISPLAY DEVICE AND MANUFACTURING METHOD OF THE SAME - Disclosed herein is an organic EL display device including, on a substrate: lower electrodes; first hole injection/transport layers; second organic light-emitting layers of colors other than blue; a blue first organic light-emitting layer; electron injection/transport layers; and an upper electrode.04-26-2012
20120097932CONDENSED-CYCLIC COMPOUND, ORGANIC LIGHT-EMITTING DIODE COMPRISING THE SAME AND FLAT PANEL DISPLAY DEVICE COMPRISING THE ORGANIC LIGHT-EMITTING DIODE - A condensed-cyclic compound of Formula 1, an organic light-emitting diode (OLED) including the same and a flat panel display device including the OLED. The condensed-cyclic compound of Formula 1 may be used in an organic light-emitting diode. Accordingly, an OLED according to an embodiment of the present invention includes a first electrode, a second electrode disposed opposite to the first electrode, and a first layer interposed between the first electrode and the second electrode, wherein the first layer includes the condensed-cyclic compound represented by Formula 1. The OLED may further include at least one layer selected from the group consisting of a hole injection layer, a hole transport layer, an emission layer, a hole blocking layer, an electron transport layer and an electron injection layer.04-26-2012
20120097930ORGANIC LIGHT-EMITTING DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display apparatus including a substrate; a black matrix layer formed over the substrate; an insulating layer formed over the black matrix layer; a thin film transistor (TFT) formed over the insulating layer; a pixel electrode connected to the TFT; and an organic layer formed over the pixel electrode. At least one hole is formed in at least one of the black matrix layer and the insulating layer, in a region where the black matrix layer and the insulating layer overlap each other.04-26-2012
20120097929HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A heterocyclic compound represented by Formula 1 below and an organic light-emitting device including the heterocyclic compound:04-26-2012
20120097928ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode (OLED) display includes: a substrate including a first area and a second area; a first electrode at the first area of the substrate, and a first electrode at the second area of the substrate; a reflective electrode on the first electrode at the first area; a barrier rib on the substrate, the barrier rib having openings exposing the reflective electrode and the first electrode at the second area; an organic emission layer on the reflective electrode and the first electrode at the second area; a second electrode on the organic emission layer; and a reflective layer on the second electrode at the second area.04-26-2012
20120097927Organic Light Emitting Diode Display - An organic light emitting diode (OLED) display may be constructed with a substrate; a first electrode formed on the substrate; a barrier rib formed on the substrate and having an opening exposing the first electrode; an organic emission layer formed on the first electrode; and a second electrode formed on the organic emission layer. The barrier rib includes an isolating groove formed between organic emission layers of neighboring pixels. Accordingly, in the organic light emitting diode (OLED) display, the isolating groove is formed at the barrier rib such that ink is prevented from crossing over the barrier rib and flowing into a neighboring pixel without a hydrophobic surface treatment of the barrier rib.04-26-2012
20120097926OLED DISPLAY AND METHOD OF FABRICATING THE SAME - An OLED (OLED) display is provided with a plurality of pixels in each of the OLEDs, each of the OLEDs comprising a first electrode, an organic emission layer, and a second electrode sequentially formed on a substrate, wherein the organic emission layer comprises a mixture of at least two organic materials, and wherein a difference of sublimation temperatures between the at least two organic materials is set to be less than about 50° C.04-26-2012
20090127547PI-CONJUGATED ORGANOBORON POLYMERS IN THIN-FILM ORGANIC ELECTRONIC DEVICES - Pi-conjugated organoboron polymers for use in thin-film organic polymer electronic devices. The polymers contain aromatic and or unsaturated repeat units and boron atoms. Pi-conjugated organoboron polymers which are end capped, derivatized with solubilizing groups or both exhibit improved solubility and handling properties beneficial for the formation of thin films useful for device fabrication. The vacant p-orbital of the boron atoms conjugate with the pi-conjugated orbital system of the aromatic or unsaturated monomer units extending the pi-conjugation length of the polymer across the boron atoms. The pi-conjugated organoboron polymers are electron-deficient and, therefore, exhibit n-type semiconducting properties, photoluminescence, and electroluminescence. The invention provides thin-film organic polymer electronic devices, such as organic photovoltaic cells (OPVs), organic diodes, organic photodiodes, organic thin-film transistors (TFTs), organic field-effect transistors (OFETs), printable or flexible electronics, such as radio-frequency identification (RFID) tags, electronic papers, and printed circuit elements, organic light-emitting diodes (OLEDs), polymer light-emitting diodes (PLEDs), and energy storage devices employing the pi-conjugated organoboron polymers. In OLED and PLED applications these materials are used as the electron transport layer (ETL) to improve device efficiency. The polymers which exhibit photo- and electroluminescence are also useful as light-emitting material in PLEDs.05-21-2009
20090184314THIN FILM TRANSISTOR, MATRIX SUBSTRATE, ELECTROPHORESIS DISPLAY DEVICE, AND ELECTRONIC APPARATUS - Provided is a thin film transistor including a substrate, a source electrode and a drain electrode disposed above the substrate so as to oppose each other, an organic semiconductor film disposed between the source electrode and the drain electrode to generate a channel region, and a gate electrode disposed opposite the organic semiconductor film via a gate insulating film. The gate electrode includes an aperture in the channel region.07-23-2009
20100032663METHOD AND APPARATUS FOR SIMULTANEOUS LATERAL AND VERTICAL PATTERNING OF MOLECULAR ORGANIC FILMS - The disclosure relates to a method and apparatus for micro-patterning organic layers of OLEDs. The disclosed methods do not require applying pressure to the film, nor do they require heat treatment, surface treatment or fast release rate of a stamp from the substrate. The disclosed methods are particularly advantageous over the conventional shadow masking techniques for providing large array fabrication with small features. In one embodiment of the disclosure, one or more organic films are selected for the OLED as a function of their individual or combined sublimation temperature. The material is selected in view of the depth and shape of the features that are to be formed in the organic layer. The disclosed embodiments can provide minimum feature size of 13 μm which is suitable for high resolution OLED displays.02-11-2010
20100032660ORGANIC THIN FILM TRANSISTOR, PRODUCTION METHOD THEREOF, AND ELECTRONIC DEVICE - An organic thin film transistor is disclosed, including a substrate formed of an organic insulating layer, a first layer deposited on the substrate using a plating technique to be used for forming a source electrode and a drain electrode, a second layer of a metal material deposited covering the first layer using a further plating technique to be used for forming the source electrode and the drain electrode with the metal material capable of forming an ohmic contact with an organic semiconductor material lower than the first layer, and an organic semiconductor layer over a region between the source electrode and the drain electrode, which are each formed with the first layer and the second layer. Also disclosed is an electric device provided with the organic thin film transistor.02-11-2010
20100032656Phenylcarbazole compounds, organic light emitting device comprising the phenylcarbazole compounds and flat panel display device comprising the organic light emitting device - Provided are a compound represented by Formula 1 or 2 below and an organic light emitting device including an organic layer having the compound:02-11-2010
20090101894METHOD FOR FABRICATING METAL-OXIDE SEMICONDUCTOR TRANSISTORS - A method for fabricating a metal-oxide semiconductor transistor is disclosed. First, a semiconductor substrate having a gate structure thereon is provided, and a spacer is formed around the gate structure. An ion implantation process is performed to implant a molecular cluster containing carbon, boron, and hydrogen into the semiconductor substrate at two sides of the spacer for forming a doped region. The molecular weight of the molecular cluster is preferably greater than 100. Thereafter, a millisecond annealing process is performed to activate the molecular cluster within the doped region.04-23-2009
20100032662Organic Thin Film Transistors - A method of forming an organic thin film transistor comprising: providing a structure comprising source and drain electrodes with a channel region therebetween, a gate electrode, and a dielectric layer disposed between the source and drain electrodes and the gate electrode; and patterning the dielectric layer using the source and drain electrodes as a mask to form a region of dielectric material in the channel region which is thinner than regions of dielectric material adjacent the channel region.02-11-2010
20100032659SEMICONDUCTOR DEVICE AND METHOD OF FABRICATING THE SAME - A semiconductor device 02-11-2010
20100032654Semiconductor Device Having Silane Treated Interface - A semiconductor device made on a polymer substrate using graphic arts printing technology uses a printable organic semiconductor. An electrode is situated on the substrate, and a dielectric layer is situated over the electrode. Another electrode(s) is situated on the dielectric layer. The exposed surfaces of the dielectric and the top electrode are treated with a reactive silane to alter the surface of the electrode and the dielectric sufficiently to allow an overlying organic semiconductor layer to have good adhesion to both the electrode and the dielectric. In various embodiments, the electrodes may be printed, and the dielectric layer may also be printed.02-11-2010
20100032655Field-effect transistor - Disclosed is a field-effect transistor characterized by using a compound represented by the formula (1) below as a semiconductor material.02-11-2010
20090315024ORGANIC LUMINESCENCE DEVICE - An organic luminescence device including an electron transport layer, which comprises an electron transporting material and a metal oxide represented by Formula 1: A12-24-2009
20110260149N-Phenyl carbazole-based host material for light-emitting diodes - The present invention relates to a host material comprising a compound having a carbazole moiety which is suitable for blue-emitting OLEDs. Surprisingly, it has been found that when appropriate substituents are present in the carbazole structure, the solubility of the compounds can be improved without any adverse effect on the OLED performance. The present invention further relates to the use of the host materials and to an organic light emitting device comprising the host material.10-27-2011
20090278119OLED DISPLAY WITH EXTENDED LIFETIME - The present invention relates to an organic light-emitting diode which has a light-emitting layer C which comprises at least one hole-conducting material CA and at least one phosphorescence emitter CB, to mixtures comprising at least one carbene complex in combination with at least one hole-conducting material or in combination with at least one phosphorescence emitter, and to the use of mixtures comprising at least one hole-conducting material and at least one phosphorescence emitter as a light-emitting layer in OLEDs for prolonging the lifetime of the light-emitting layer. The inventive organic light-emitting diode may have, in at least one of the layers of the organic light emitting diode, preferably in the hole-blocking layer and/or the electron-blocking layer and/or the light-emitting layer C, in addition to the hole-conducting material CA and the emitter CB, at least one compound selected from disilylcarbazoles, disilyldibenzofurans, disilyldibenzothiophenes, disilyldibenzophospholes, disilyldibenzothiophene S-oxides and disilyldibenzothiophene S,S-dioxides.11-12-2009
20110193066CURRENT LIMITING ELEMENT FOR PIXELS IN ELECTRONIC DEVICES - An apparatus for pixellated radiation configured to prevent short-circuits from adversely impacting display quality. A current limiting element connects a pixel to a power bus to minimize effects of pixel failures. Failure of a single pixel will have minimum impact on perceived display quality, thus avoiding failure of an entire row or column which would be noticeable to an observer of the display.08-11-2011
20120025185ELECTROLUMINESCENCE DEVICE - An electroluminescence device (02-02-2012
20120025186LIGHT EMITTING DEVICE - The luminance of different colors of light emitted from EL elements in a pixel portion of a light emitting device is equalized and the luminance of light emitted from the EL elements is raised. The pixel portion of the light emitting device has EL elements whose EL layers contain triplet compounds and EL elements whose EL layers contain singlet compounds in combination. The luminance of light emitted from the plural EL elements is thus equalized. Furthermore, a hole transporting layer has a laminate structure to thereby cause the EL elements to emit light of higher luminance.02-02-2012
20120025184LIGHT EMITTING DEVICE - In an electroluminescence device, highly efficient light emission is realized without reducing the durability thereof. The electroluminescence device includes electrodes, a plurality of layers deposited between the electrodes, a light emitting region between the plurality of layers, the light emitting region emitting light by application of an electric field between the electrodes. The plurality of layers include a metal thin-film in the vicinity of the light emitting region. The metal thin-film induces plasmon resonance on the surface thereof by the emitted light. Surface modification is provided on at least one of the surfaces of the metal thin-film. The surface modification includes an end group having polarity that makes the work function of the metal thin-film become close to the work function of at least a layer next to the metal thin-film.02-02-2012
20120025183NOVEL ORGANIC COMPOUND, LIGHT-EMITTING DEVICE, AND IMAGE DISPLAY APPARATUS - Provided is an acenaphtho[1,2-k]benzo[e]acephenanthrene derivative represented by general formula (1):02-02-2012
20120025182DONOR SUBSTRATE, PROCESS FOR PRODUCTION OF TRANSFER FILM, AND PROCESS FOR PRODUCTION OF ORGANIC ELECTROLUMINESCENT ELEMENT - The present invention provides a donor substrate, a process for production of a transfer film, and a process for production of an organic electroluminescent element, that allow obtaining a transfer film having a uniform composition distribution by way of a simple configuration. A donor substrate of the present invention is a substrate comprising a photothermal conversion layer and a donor layer, wherein the donor layer has a first organic layer arranged on a side of a transfer surface, and a second organic layer arranged on a side of the photothermal conversion layer; the first organic layer and the second organic layer are formed of vaporizable organic materials having dissimilar vaporization-starting temperatures; and the organic material that forms the first organic layer has a vaporization-starting temperature higher than that of the organic material that forms the second organic layer.02-02-2012
20120025181ORGANIC EL ELEMENT - An organic EL element (02-02-2012
20120025180ORGANIC ELECTROLUMINESCENT DEVICE - Provided is a structure of an organic EL element capable of reducing the product cost by drastically simplifying the fabrication process as compared with a conventional multi-photon organic EL element. An insulating organic layer having a low dielectric constant is interposed to smooth the transfer of electron charges between a strong electron-accepting material and an electron transport layer included in a charge generation layer of the conventional multi-photon organic EL element.02-02-2012
20120025179PHOTOELECTRIC CONVERSION ELEMENT AND IMAGING DEVICE - A photoelectric conversion element includes: an electrically conductive thin layer; an organic photoelectric conversion layer containing a compound having a partial structure represented by formula (I) and a fullerene or a fullerene derivative; and a transparent electrically conductive thin layer:02-02-2012
20120025178Organometallic Complex, Light-Emitting Element, Light-Emitting Device, Electronic Device, and Lighting Device - An object is to provide a novel organometallic complex that has a broader emission spectrum in the wavelength range of green to blue. Other objects are to provide a light-emitting element using the organometallic complex, and a light-emitting device, an electronic device, and a lighting device each using the light-emitting element. Provided is an organometallic complex represented by a general formula (G1). Represented by the general formula (G1) is a novel organometallic complex that exhibits a broad emission spectrum in the wavelength range of green to blue. Further provided are a light-emitting element using the organometallic complex, and a light-emitting device, an electronic device, and a lighting device each using the light-emitting element.02-02-2012
20120025177Phosphorescent light-emitting iridium complex containing pyridyltriazole ligand - An Ir complex having a pyridyl triazole ligand substituted with at least one substituent on its pyridyl ring, and a light emitting material comprising such Ir complex. Such light emitting material was found to have a significantly enhanced photophosphorescence quantum yield and hypsochromic blue shifted photophosphorescent emission over other Ir complexes with a pyridyl triazole ligand having no substituent in its pyridine ring. Use of such light emitting material and an organic light emitting device including the same.02-02-2012
20120025176Organic Radiation-Emitting Component and Method for Producing an Organic Radiation-Emitting Component - An organic radiation-emitting component, comprising a first electrode (02-02-2012
20120025175DIODE BASED ON ORGANIC MATERIAL - Semiconductor device, comprising a substrate with a first electrode and having a layer of organic material deposited over the substrate and the first electrode; and a second electrode deposited over the layer of organic material, wherein the second electrode comprises a dielectric layer that is separated from the layer of organic material by the material of the second electrode.02-02-2012
20120025174PASSIVATING LAYER FOR FLEXIBLE ELECTRONIC DEVICES - An electronic device which comprises a first electrode, a second electrode, an active polymer layer between the first and the second electrodes, and a passivating layer adapted to enhance the lifetime of the electronic device. The passivating layer comprises a substantially amorphous titanium oxide having the formula of TiO02-02-2012
20120025172ORGANIC LIGHT EMITTING DEVICE WITH OUTCOUPLING LAYER FOR IMPROVED LIGHT EXTRACTION - An organic light emitting device comprises an outcoupling layer having relatively high aspect ratio nanowires imbedded within an optically thick transparent high optical index film. The incorporation of nanowires increases the optical index of a light emitting assembly and provides a means for extracting light from a light emitting assembly of the organic light emitting device.02-02-2012
20120025171Electronic Component with at Least One Organic Layer Arrangement - An electronic component, having an anode, a cathode and at least one organic layer arrangement, arranged between the anode and cathode and is in electrical contact with the anode and cathode and has at least one of the following: a zone which generates electrical charges upon application of an electric potential to the anode and cathode and has an np-junction, which is formed with a layer of a p-type organic semiconductor material and an n-doped layer of an n-type organic semiconductor material, which is in contact with a conductive layer of the anode, and a zone which generates further electrical charges upon application of the electric potential to the anode and cathode and has a pn-junction, which is formed with a layer of an n-type organic semiconductor material and a p-doped layer of a p-type organic semiconductor material, which is in contact with a conductive layer of the cathode.02-02-2012
20090189149Composition for producing insulator and organic insulator using the same - Disclosed herein is a composition for producing an insulator. More specifically, the composition comprises a silane-based organic-inorganic hybrid material containing one or more multiple bonds, an acrylic organic crosslinking agent and a silane-based crosslinking agent having six or more alkoxy groups. Also disclosed herein is an organic insulator produced using the insulator composition. The organic insulator is highly crosslinked to facilitate the fabrication of an organic thin film transistor in terms of processing.07-30-2009
20090189152FERROELECTRIC MEMORY DEVICE - Provided is a ferroelectric memory device. The ferroelectric memory device includes an inorganic channel pattern on a substrate, a source electrode and a drain electrode spaced apart from each other on the substrate and contacting the inorganic channel pattern, a gate electrode disposed adjacent to the inorganic channel pattern, and an organic ferroelectric layer interposed between the inorganic channel pattern and the gate electrode.07-30-2009
20090189147Organic transistor comprising a self-aligning gate electrode, and method for the production thereof - An unpatterned semiconductor layer is applied to a substrate for the production of an organic transistor. An insulator is arranged on the semiconductor layer wherein at least the insulator layer is patterned, so that at least source and drain electrode layers can be formed subsequently. The source and drain electrode layers are formed after the patterning of at least the insulator layer to ensures that an overlap of both a gate electrode layer and the source and drain electrode layers is essentially avoided.07-30-2009
20090315022AZAINDENOFLUORENEDIONE DERIVATIVE, MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE - An azaindenofluorenedione derivative shown by the following formula (I), (IIa) or (IIb):12-24-2009
20100108995ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device is provided and includes: a pair of electrodes; and at least one organic layer between the pair of electrodes, the at least one organic layer including a light-emitting layer. The at least one organic layer contains an indole compound represented by formula (1):05-06-2010
20090146140NONVOLATILE ORGANIC BISTABLE MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A nonvolatile organic bistable memory device includes a substrate, a lower electrode disposed on the substrate, a lower charge injection layer disposed on the lower electrode, an insulating polymer layer including nanoparticles disposed on the lower charge injection layer, an upper charge injection layer disposed on the insulating polymer layer, and an upper electrode disposed on the upper charge injection layer. The lower and upper charge injection layers each include fullerenes and/or carbon nanotubes.06-11-2009
20110168986THIN FILM DEPOSITION APPARATUS, METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY DEVICE BY USING THE APPARATUS, AND ORGANIC LIGHT-EMITTING DISPLAY DEVICE MANUFACTURED BY USING THE METHOD - A thin film deposition apparatus, a method of manufacturing an organic light-emitting display device by using the thin film deposition apparatus, and an organic light-emitting display device manufactured by using the method. The thin film deposition apparatus includes: a deposition source that discharges a deposition material; a deposition source nozzle unit disposed at a side of the deposition source and including a plurality of deposition source nozzles arranged in a first direction; a patterning slit sheet disposed opposite to the deposition source nozzle unit and including a plurality of patterning slits having different lengths arranged in the first direction; and a barrier plate assembly disposed between the deposition source nozzle unit and the patterning slit sheet in the first direction, and including a plurality of barrier plates that partition a space between the deposition source nozzle unit and the patterning slit sheet into a plurality of sub-deposition spaces, wherein the thin film deposition apparatus is separated from the substrate by a predetermined distance, and the thin film deposition apparatus and the substrate are movable relative to each other.07-14-2011
20100123125ORGANIC THIN FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME AND DISPLAY DEVICE USING THE SAME - An organic thin film transistor, a method of manufacturing the same, and a display device using the same are provided. The organic thin film transistor includes a source and a drain on a substrate, reverse taper-shaped banks that are positioned on the source and the drain to expose a portion of each of the source and the drain, and an organic semiconductor layer between the reverse taper-shaped banks.05-20-2010
20090121218METHOD FOR PROGRAMMING AN ELECTRONIC CIRCUIT AND ELECTRONIC CIRCUIT - The invention relates to a method for producing an electronic circuit, and to an electronic circuit, having at least one organic electrical functional layer and at least one data storage unit, the data storage unit being configured with two electrically conductive layer contacts. The two electrically conductive layer contacts are arranged alongside one another and are electrically conductively connected to one another either by an electrically conductive dry substance or by an electrically conductive solidified substance.05-14-2009
20090121216Organic thin film transistor having surface-modified carbon nanotubes - An organic thin film transistor may comprise an organic semiconductor layer having surface-modified carbon nanotubes and an electrically-conductive polymer. The surfaces of the carbon nanotubes may be modified with curable functional groups, comprising oxirane groups and anhydride groups. A room-temperature solution process may be used to provide a relatively uniform and relatively highly-adhesive organic semiconductor layer in a simple and economical manner. Additionally, the organic thin film transistor having the organic semiconductor layer may have relatively high charge carrier mobility and relatively low threshold voltage.05-14-2009
20110266531ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device includes a first electrode, a mixed organic layer, an emission layer, an electron transport layer, and a second electrode. The mixed organic layer contains a fluorene derivative and a pyrazine derivative, and the electron transport layer contains a lithium quinolate and a pyridine derivative.11-03-2011
20110266524ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a first electrode, a second electrode, and an electroluminescent layer therebetween. The electroluminescent layer includes: 11-03-2011
20090146134Semiconductive percolating networks - The present invention relates to a semi-conductive composition comprising carbon nanotubes in a matrix. These semiconductive compositions are useful in printing semiconducting portions of thin film transistors.06-11-2009
20090146138THIN-FILM TRANSISTOR, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - A thin-film transistor includes a source electrode, a drain electrode arranged apart from the source electrode, an organic semiconductor layer arranged between the source electrode and the drain electrode so as to establish connection of the source electrode and the drain electrode, a first insulating layer arranged on one surface side of the organic semiconductor layer, a gate electrode arranged on a side of the first insulating layer opposite that on which the organic semiconductor layer lie, and a second insulating layer arranged on a side of the organic semiconductor layer opposite that on which the first insulating layer lie. The organic semiconductor layer contains an organic semiconductor material having p-type semiconducting properties. The second insulating layer contains one or more compounds of the following formula (1), so that electrons are fed from the second insulating layer into the organic semiconductor layer:06-11-2009
20090146136ORGANIC MEMORY DEVICE AND METHOD OF FABRICATING THE SAME - Provided are a highly integrated organic memory device and a method of fabricating the same. The device includes an insulating substrate, a lower electrode disposed on the insulating substrate, an electron channel layer disposed on the lower electrode, and an upper electrode disposed on the electron channel layer. A bulk heterojunction formed of an electron-donor/electron-acceptor polymer is used as the electron channel layer having electrical bistability. Thus, a highly integrated organic memory device can be formed by a simple fabrication process.06-11-2009
20090146137DISPLAY SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - In a manufacturing method of a display substrate according to one or more embodiments, a plurality of thin films are patterned by using a photoresist film pattern having different thicknesses in each area on a substrate as etch masks. The photoresist film pattern may be etch-backed at least twice during the manufacturing process of the display substrate and may be used as the etch mask for patterns having shapes different from each other. Accordingly, the number of processes for manufacturing the mask patterns, which may be formed by a photolithography method in order to pattern the thin films formed on the substrate, may be reduced.06-11-2009
20090146135DETECTOR AND METHOD OF FABRICATING THE SAME - Provided are a detector and a method of fabricating the same. The detector includes a base portion; first and second electrodes disposed on the base portion and spaced apart from each other; a reactant layer disposed between the first and second electrodes on the base portion to react with a specific functional group contained in a fluid; and a protection medium layer surrounding the first and second electrodes and forming a reaction space to expose a portion of the reactant layer. In the detector, electrodes can be effectively protected at low cost, and a path for guiding a fluid to be detected can be provided.06-11-2009
20110260147ORGANIC/INORGANIC HYBRID THIN FILM PASSIVATION LAYER FOR BLOCKING MOISTURE/OXYGEN TRANSMISSION AND IMPROVING GAS BARRIER PROPERTY - The present invention relates to an organic/inorganic hybrid thin film passivation layer comprising an organic polymer passivation layer prepared by a UV/ozone curing process and an inorganic thin film passivation layer for blocking moisture and oxygen transmission of an organic electronic device fabricated on a substrate and improving gas barrier property of a plastic substrate; and a fabrication method thereof. Since the organic/inorganic hybrid thin film passivation layer of the present invention converts the surface polarity of an organic polymer passivation layer into hydrophilic by using the UV/ozone curing process, it can improve the adhesion strength between the passivation layer interfaces, increase the light transmission rate due to surface planarization of the organic polymer passivation layer, and enhance gas barrier property by effectively blocking moisture and oxygen transmission.10-27-2011
20110260142ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a first electrode, a second electrode, and an electroluminescent layer therebetween. The electroluminescent layer includes: 10-27-2011
20080237585Flat panel display device and method of fabricating the same - A flat panel display device including a first region having an organic light emitting diode and a thin film transistor and a second region having a capacitor is disclosed. The capacitor comprises first, second, and third electrodes, where the area of a third capacitor electrode is reduced, thereby ensuring a distance between a first power voltage line and the third capacitor electrode. The total area of the capacitor is compensated by increasing the area of the first capacitor electrode. Thus, the area of the third capacitor electrode is reduced while the total capacitance of the capacitor is maintained, thereby preventing a dark spot caused by a short circuit between the first power voltage line and the third capacitor electrode.10-02-2008
20080237584Organic Component and Electric Circuit Comprising Said Component - The invention relates to an organic component and an electric circuit containing at least one organic component of this type, comprising the following layers: 10-02-2008
20080237583METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE, SEMICONDUCTOR CIRCUIT, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - A method for manufacturing a semiconductor device includes: forming a source electrode and a drain electrode on a substrate; forming an organic semiconductor layer including a π conjugated organic compound at least between the source electrode and the drain electrode; applying an application liquid on the organic semiconductor layer, the application liquid being made of a polymer of an alicyclic compound dissolved in a paraffin hydrocarbon solvent that is a carbocyclic compound without having aromaticity; forming a gate insulation layer including the polymer of the alicyclic compound by removing the paraffin hydrocarbon solvent from the application liquid; and forming a gate electrode on the gate insulation layer.10-02-2008
20080237582THIN FILM TRANSISTOR ARRAY PANEL AND MANUFACTURE THEREOF - A method for a thin film transistor array panel includes forming a gate line and a pixel electrode on a substrate, forming a gate insulating layer covering the gate line, forming a data line including a source electrode and a drain electrode on the gate insulating layer, forming an interlayer insulating layer covering the data line and the drain electrode on the gate insulating layer, forming a first opening in the interlayer insulating layer, forming an organic semiconductor in the first opening, forming a passivation layer on the organic semiconductor and the interlayer insulating layer, and forming a second opening in the interlayer insulating layer to expose the pixel electrode.10-02-2008
20080237580Organic Semiconductor Element and Organic El Display Device Using the Same - It is provided an organic semiconductor element having an FET which can control a channel length to a small value and does not cause a rise in contact resistance due to a step portion, and an organic light emitting display device with a large aperture using the same. A first conductive layer (10-02-2008
20080265245SUBSTRATE OF EMITTING DEVICE AND EMITTING DEVICE USING THE SAME - Provided is a substrate for a light-emitting device having good light emitting efficiency and light-emitting device using the substrate. A light transparent substrate 10-30-2008
20080265246POLYMER FILM AND POLYMER FILM DEVICE USING THE SAME - The present invention relates to a polymer film comprising a polymer having liquid crystallinity, having a number-average molecular weight in terms of polystyrene of 1010-30-2008
20080265244Alignment Tolerant Patterning on Flexible Substrates - A method is provided for fabricating a multilayer electronic device on a flexible substrate including at least a first and a second patterned layer, wherein the first patterned layer is defined with a linewidth that is smaller than the linewidth of the second patterned layer, and the second patterned layer is defined by a patterning technique which is capable of correcting for local distortions of the pattern of said first layer on top of the flexible substrate and wherein the first patterned layer is laid-out in such a way that the geometric overlap between a portion of the second layer and a portion of the first layer is insensitive against small variations of the position of the second patterned layer.10-30-2008
20100123124ORGANIC THIN-FILM TRANSISTORS - A thin-film transistor uses a semiconducting layer comprising a semiconducting material of (A):05-20-2010
20090152531Polar semiconductor hole transporting material - A semiconductive hole transport material containing polar substituent groups, the polar substituent groups substantially not affecting the electronic properties of the hole transport material and the hole transport material being soluble in a polar solvent.06-18-2009
20100127252THIN FILM TRANSISTOR SUBSTRATE AND MANUFACTURING METHOD THEREOF - Embodiments of the invention provide a thin film transistor substrate, comprising: an insulating substrate; a gate wire formed on the insulating substrate; a first gate insulating layer made of an inorganic material, formed on the gate wire and having a first insulating layer contact hole for exposing at least a part of the gate wire; a second gate insulating layer made of an organic material, formed on the first gate insulating film and having a second insulating layer contact hole corresponding to the first insulating layer contact hole; a source electrode and a drain electrode formed on the second gate insulating layer and being aparted from each other to be defining a channel area; and an organic semiconductor layer formed on the channel area.05-27-2010
20120292602SELF-ALIGNED CARBON ELECTRONICS WITH EMBEDDED GATE ELECTRODE - A device and method for device fabrication includes forming a buried gate electrode in a dielectric substrate and patterning a stack comprising a high dielectric constant layer, a carbon-based semi-conductive layer and a protection layer over the buried gate electrode. An isolation dielectric layer formed over the stack is opened to define recesses in regions adjacent to the stack. The recesses are etched to form cavities and remove a portion of the high dielectric constant layer to expose the carbon-based semi-conductive layer on opposite sides of the buried gate electrode. A conductive material is deposited in the cavities to form self-aligned source and drain regions.11-22-2012
20100084641METHOD FOR MANUFACTURING AN ORGANIC LIGHT EMITTING DEVICE AS WELL AS SUCH A DEVICE - Electronic device comprising at least: 04-08-2010
20100084634Nano-crystal diamond film, manufacturing method thereof, and device using nano-crystal diamond film - A nano-crystal diamond film synthesized on a substrate and containing, as a major component, nano-crystal diamond having a grain diameter from 1 nm to less than 1000 nm. This nano-crystal diamond film can be formed on a substrate by means of a plasma CVD method using a raw material gas containing a hydrocarbon and hydrogen, allowing the formation of the nano-crystal diamond film to take place outside the plasma region. This nano-crystal diamond film is applicable to the manufacture of an electrochemical device, an electrochemical electrode, a DNA chip, an organic electroluminescent device, an organic photoelectric receiving device, an organic thin film transistor, a cold electron-emission device, a fuel cell and a catalyst.04-08-2010
20120175598CARBAZOLE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICES UTILIZING THE SAME AND FABRICATION METHOD THEREOF - The present invention provides a carbazole derivative of formula (I) for an organic electroluminescent device:07-12-2012
20100320450SEMICONDUCTOR SUBSTRATE, SEMICONDUCTOR DEVICE, LIGHT EMITTING DEVICE AND ELECTRONIC DEVICE - To provide a semiconductor substrate, a semiconductor device, a light emitting device and an electronic device which have a low price, a long lifetime, and a high luminescent efficiency, and moreover are capable of being bent. A graphite substrate having heat resistance and having flexibility with respect to external force, and a first semiconductor layer, provided on the graphite substrate, which is made of a nitride of the Group XIII are included, and a method such as pulse sputter deposition can be used in forming the first semiconductor layer on the graphite substrate, to thereby allow inexpensive manufacture to be possible. In addition, since the nitride of the Group XIII is an inorganic substance, it has a long lifetime, and thus a high luminescent efficiency can be obtained. Moreover, since the graphite substrate has flexibility with respect to external force, it can also be bent.12-23-2010
20100320452BENZOPHENANTHRENE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE EMPLOYING THE SAME - A fused aromatic ring derivative shown by the following formula (1):12-23-2010
20100078630Organic Electroluminescence Element, Method for Manufacturing the Same, Image Display Unit and Illuminating Device - In an organic electroluminescent element of the present invention, which has at least a hole transport layer having an inorganic compound and an organic luminescent layer between a first electrode and a second electrode on a substrate, a high light extraction efficiency can be obtained by reflecting light emitted from the organic luminescent layer off the hole transport layer.04-01-2010
20100078628UNIVERSAL METHOD FOR SELECTIVE AREA GROWTH OF ORGANIC MOLECULES BY VAPOR DEPOSITION - A method for selective growth of organic molecules on a substrate is proposed. The method comprises: creating a pattern of nucleation sites for the organic molecules on the substrate; depositing of organic molecules at the nucleation sites by vapor deposition. An organic material based device obtained by performing the method is also proposed. The method offers an alternative to methods that are known the fields of coating technology or semiconductor fabrication.04-01-2010
20090309095ELECTRO-OPTICALLY ACTIVE ORGANIC DIODE WITH SHORT PROTECTION - An electro-optically active organic diode, for example an organic light emitting diode (OLED), comprises an anode electrode (12-17-2009
20090294762COMPOUND HAVING THIOL ANCHORING GROUP, METHOD OF SYNTHESIZING THE SAME, AND MOLECULAR ELECTRONIC DEVICE HAVING MOLECULAR ACTIVE LAYER FORMED USING THE COMPOUND - Provided are an electron donor-azo-electron acceptor compound having a thiol-based anchoring group, a method of synthesizing the compound, and a molecular electronic device having a molecular active layer formed of the compound. The compound for forming a molecular electronic device includes an azo compound that has a dinitrothiophene group and an aminobenzene group having thiol derivatives. The compound forms a molecular active layer in the molecular electronic devices. The molecular active layer is self-assembled on an electrode using the thiol derivative in the azo compound as an anchoring group. The molecular active layer in the molecular electronic device forms a switching device switching between an on-state and an off-state in response to a voltage applied to electrodes or a memory device storing a predetermined electric signal in response to a voltage applied to the electrodes.12-03-2009
20100090203Organic Light-Emitting Element, Organic Light-Emitting Transistor, and Light-Emitting Display Device - An organic light-emitting element comprises a large number of unit pixels each at least composed of a base, an auxiliary electrode, a first insulating layer to cover at least the auxiliary electrode, a charge injection layer on the first insulating electrode, laminated bodies each consisting of a first electrode and a second insulating layer and provided in a predetermined pattern, an organic light-emitting layer formed in regions where the laminated bodies are not provided, and a second electrode to cover at least the organic light-emitting layer. The unit pixel has first partitions provided to demarcate the organic light-emitting layer from other adjacent unit pixels and at least one or more second partitions to have a uniform coated thickness, and at least one of the first partition and the second partition is the laminated body.04-15-2010
20090267059ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device is disclosed. The organic light emitting device includes a substrate, a display positioned on the substrate, and a dummy pattern positioned at an edge of the display. The display includes a plurality of subpixels each including a first electrode, an emissive unit including at least an organic emissive layer, and a second electrode. The dummy pattern includes a dummy layer including the same formation material as that of at least one of a plurality of layers for forming the emissive unit.10-29-2009
20110147730CARBAZOLE DERIVATIVE, AND LIGHT EMITTING ELEMENT AND LIGHT EMITTING DEVICE USING THE CARBAZOLE DERIVATIVE - It is an object of the present invention to provide a material which is excellent in a hole injecting property and a hole transporting property, and to provide a light emitting element and a light emitting device using a material which is excellent in a hole injecting property and a hole transporting property. The present invention provides a carbazole derivative represented by a general formula (1). The carbazole derivative according to the present invention is excellent in the hole injecting property. By using the carbazole derivative according to the present invention as a hole injecting material for a hole injecting layer of a light emitting element, a driving voltage can be reduced. In addition, a lower driving voltage, improvement of the luminous efficiency, a longer life time, and higher reliability can be realized by applying the material to a light emitting element or a light emitting device.06-23-2011
20110147724ORGANIC THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - There is provided an organic thin film transistor and a method of manufacturing the same. The organic thin film transistor includes: an insulating substrate on which a plurality of barrier ribs and a plurality of grooves partitioned by the barrier ribs are formed; source and drain electrodes each formed on the grooves spaced apart from each other among the plurality of grooves; a gate electrode formed on the groove between the source and drain electrodes; an opening formed by etching the barrier ribs between the source electrode and the gate electrode and between the gate electrode and the drain electrode; a gate insulating film formed on the opening; and an organic semiconductor layer formed on the gate insulating film. The organic thin film transistor is capable of mass production and has excellent electrical characteristics.06-23-2011
20110147719ELECTRICALLY CONDUCTIVE POLYMER COMPOSITIONS - The present invention relates to electrically conductive compositions, and their use in electronic devices. The composition includes either (1) a deuterated electrically conductive polymer doped with a highly-fluorinated acid polymer; or (2) (a) a deuterated electrically conductive polymer doped with a non-fluorinated polymeric acid and (b) at least one highly-fluorinated acid polymer.06-23-2011
20110147718ELECTROACTIVE COMPOSITION AND ELECTRONIC DEVICE MADE WITH THE COMPOSITION - There is provided an electroactive composition including: a deuterated first host material and an electroluminescent dopant material. The first host is a compound having Formula I:06-23-2011
20090267058SOLUTION-PROCESSED INORGANIC FILMS FOR ORGANIC THIN FILM TRANSISTORS - A method for fabricating a sol-gel film composition for use in a thin film transistor is disclosed. The method BB includes fabricating the sol-gel dielectric composition by solution processing at a temperature in the range 60° C. to 225° C. The sol-gel film made by the method, and an organic thin-film Si wafer Si wafer transistor incorporating the sol-gel film are also disclosed.10-29-2009
20090267057ORGANIC FIELD-EFFECT TRANSISTOR FOR SENSING APPLICATIONS - Field-effect transistor comprising a gate electrode layer, a first dielectric layer, a source electrode, a drain electrode, an organic semiconductor and a second dielectric layer, wherein the first dielectric layer is located on the gate electrode layer, the source electrode, the drain electrode and the organic semiconductor are located above the first dielectric layer, the source electrode and the drain electrode are in contact with the organic semiconductor, wherein the second dielectric layer is placed upon the assembly of source electrode, drain electrode and organic semiconductor and wherein during operation of the field-effect transistor the capacitance of the assembly comprising the gate electrode layer and the first dielectric layer is lower than the capacitance of the second dielectric layer. Further a sensor system comprising such a field-effect transistor and the use of a sensor system for detecting molecules is disclosed.10-29-2009
20100084640POLYMER HAVING UNIT OBTAINED BY CONDENSATION OF DIFLUOROCYCLOPENTANEDIONE RING AND AROMATIC RING, ORGANIC THIN FILM USING THE SAME, AND ORGANIC THIN FILM DEVICE - A polymer having a repeating unit represented by the following general formula (I) and a ferrocene-based reduction potential of −1.5 to −0.5 V as measured by a cyclic voltammetry method04-08-2010
20100084639Electric Organic Component and Method for the Production Thereof - An electric organic component and a method for the production thereof is disclosed. The component includes a substrate, a first electrode, a first electrically semiconductive layer on the first electrode, an organic functional layer on the first electrically semiconductive layer and a second electrode on the organic functional layer. The first or the second electrode may be arranged on the substrate. The electrically semiconductive layer is doped with a dopant which comprises rhenium compounds.04-08-2010
20100084647ELECTROLUMINESCENT DEVICES INCLUDING ORGANIC EIL LAYER - An OLED device comprises a cathode, an anode, and has therebetween a light emitting layer (LEL) comprising a phosphorescent emitting compound disposed in a host comprising a mixture of at least one electron transporting co-host which is a benzophenone derivative with a spiro substituent and at least one hole transporting co-host which is a triphenylamine which contains one trivalent nitrogen atom that is bonded only to carbon atoms, at least one of which is a member of an aromatic ring, wherein there is present an electron transporting layer contiguous to the LEL (HBL?) on the cathode side comprising an anthracene or a fluoranthene and wherein there is present an election injecting layer comprising a phenanthroline or a lithium quinolate contiguous to the cathode.04-08-2010
20100084642ORGANIC EL DEVICE - An organic EL device includes an array substrate including an insulating substrate and an organic EL element which is disposed above the insulating substrate, a sealing substrate which is disposed on that side of the array substrate, which faces the organic EL element, and is attached to the array substrate, a light sensor which is provided in the array substrate and includes a light-sensing part which receives incident light via the sealing substrate, and a light-shield layer which is disposed between the light sensor and the sealing substrate, and includes an opening portion which is formed right above the light-sensing part of the light sensor.04-08-2010
20100084637ORGANIC TRANSISTOR AND METHOD FOR FABRICATING THE SAME - The present invention provides an organic transistor that includes an organic semiconductor layer containing a material having conductive particles and an organic semiconductor polymer chemically bonded to each other and a method of producing the same.04-08-2010
20100084635Recording level gauge type organic light emitting diode - Diode for which one of the conducting layers presents a suitable surface resistance so that when a power supply voltage is applied between a connection element and this conducting layer and the other conducting layer, a potential distribution is generated at the surface of this resisting conducting layer which is able to cause light to be emitted by a portion of the surface of the organic light emitting layer which is proportional to this power supply voltage. This diode is advantageously used to visualise the signal value.04-08-2010
20100084646LIGHT-EMITTING ELEMENT AND DISPLAY DEVICE - A light emitting element, including a light emitting section and a connecting section, the light emitting section and the connecting section being provided over a substrate, along the in-plane direction of the substrate, an insulating section being formed between the light emitting section and the connecting section, the light emitting element, including: the light emitting section including: a bottom electrode, a phosphor layer formed over the bottom electrode; a first charge transporting layer formed over the phosphor layer; and a first top electrode formed over the first charge transporting layer, the connecting section including: an auxiliary electrode; a second charge transporting layer formed over the auxiliary electrode and connected electrically to the first charge transporting layer of the light emitting section; and a second top electrode formed over the second charge transporting layer and connected electrically to the first top electrode of the light emitting section; the insulating section electrically insulates, with the auxiliary electrode of the connecting section, the bottom electrode and the phosphor layer of the light emitting section, and further, a HOMO (eV) and a LUMO (eV) in the first charge transporting layer are identical to a HOMO (eV) and a LUMO (eV) in the second charge transporting layer, yet further, a work function Ip (eV) of the first top electrode is identical to a work function Ip (eV) of the second top electrode, and the HOMO (eV), the LUMO (eV) and the work function Ip (eV) satisfy the following expression.04-08-2010
20100078632ELECTRONIC ELEMENT - The object is to fabricate a novel organic semiconductor element which can effectively utilize the main-chain conduction of a conjugated high molecular compound having semiconductor-like properties. Provided is an electronic element which contains, as components, a pair of electrodes which is formed on a substrate, a mesoporous film in which tubular mesopores, which are orientation controlled in one direction, are formed, the mesoporous film being formed between the electrodes so as to be in contact with the electrodes, a conjugated high molecular compound held in the tubular mesopores, and a third electrode which is electrically insulated from the conjugated high molecular compound and is in contact with the mesoporous film.04-01-2010
20100078627ORGANIC LIGHT-EMITTING DEVICE - The organic light-emitting device of the present invention includes: a substrate; a plurality of organic light-emitting elements formed on the substrate; and an element isolation layer formed between the plurality of organic light-emitting elements, each of the elements having: on the substrate in mentioned order, a first electrode patterned for each of the organic light-emitting elements, an organic compound layer patterned for each of the organic light-emitting elements, and a second electrode; the element isolation layer formed across a space between the plurality of first electrodes to cover the ends of the first electrodes, and having an opening at a portion corresponding to the organic light-emitting elements, and at least a portion of the clement isolation layer in contact with the organic compound layer is formed of an inorganic material.04-01-2010
20110266533COMPOUNDS FOR ELECTRONIC DEVICES - The present invention relates to compounds of the formula (1) and to the use thereof in organic electronic devices, and to organic electronic devices which comprise compounds of the formula (1), preferably as hole-transport materials and/or as emitting materials.11-03-2011
20090166609MEMORY CELL THAT EMPLOYS A SELECTIVELY FABRICATED CARBON NANO-TUBE REVERSIBLE RESISTANCE-SWITCHING ELEMENT FORMED OVER A BOTTOM CONDUCTOR AND METHODS OF FORMING THE SAME - In some aspects, a method of fabricating a memory cell is provided that includes (1) fabricating a first conductor above a substrate; (2) selectively fabricating a carbon nano-tube (CNT) material above the first conductor; (3) fabricating a diode above the CNT material; and (4) fabricating a second conductor above the diode. Numerous other aspects are provided.07-02-2009
20110062430BLUE LIGHT EMITTING NANOMATERIALS AND SYNTHESIS THEREOF - Methods for the production of a blue light emitting nanomaterial are provided comprising nitriding Group 13 metals to produce nitrided Group 13 metals and doping the nitrided Group 13 metals with a dopant, particularly an M03-17-2011
20110062429COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) that is improved in the luminous efficiency, fully secured of the driving stability, and of a simple structure and also disclosed is a compound for organic EL device useful for the said device. The compound for organic EL device is, for example, an indolocarbazole derivative represented by the following general formula (3). The organic EL device comprises a light-emitting layer disposed between an anode and a cathode piled one upon another on a substrate and the said light-emitting layer comprises a phosphorescent dopant and the aforementioned indolocarbazole derivative as a host material. In general formula (3), L is an aromatic heterocyclic group of a fused-ring structure with a valence of (n+1), Ar03-17-2011
20110062428Anthracene Derivative, and Light-Emitting Element, Light-Emitting Device, Electronic Device Using Anthracene Derivative - An object is to provide a novel anthracene derivative. Another object is to provide a light-emitting element with high luminous efficiency. Yet another object is to provide a light-emitting element with a long lifetime. Still another object is to provide a light-emitting device and an electronic device having a long lifetime by using the light-emitting elements of the present invention. The anthracene derivative represented by General Formula (1) is provided. The ability of the anthracene derivative represented by General Formula (1) to exhibit high luminous efficiency allows the production of a light-emitting element with high luminous efficiency and a long lifetime.03-17-2011
20110062426SUBSTITUTED OLIGO- OR POLYTHIOPHENES - A process for the preparation of a substituted 2,2′-dithiophene is described, which process comprises the steps (a), (c) and optional steps (b) and (d): a reaction of a compound of the formula: with a suitable lithium organic compound, preferably Li-alkyl or Li-alkylamide; b) optional exchange of lithium against another metal selected from Mg1 Zn and Cu; c) reaction of the metallated intermediate obtained in step (a) or (b) with a suitable electrophil, which is CO03-17-2011
20110062425ORGANIC EL ELEMENT - An organic EL element includes an anode and a cathode, and an organic compound layer between the anode and the cathode, the organic compound layer including a light-emitting sublayer, wherein the light-emitting sublayer contains a host, a metal complex acting as a first dopant, and a metal complex acting as a second dopant, the metal complex acting as the first dopant includes an unconjugated ligand and a conjugated ligand, and the first dopant has the lowest excited triplet level originating from the lowest excited triplet level of a unconjugated ligand.03-17-2011
20100090209ORGANIC EL DISPLAY APPARATUS - Provided is an organic EL display apparatus which can be driven at a low voltage and in which a red-light-emitting device uses a phosphorescent material, a green-light-emitting device uses a delayed fluorescent material, and the same material is used in the hole transport layers of the respective devices.04-15-2010
20100090211MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes steps of forming a gate electrode over a light-transmitting substrate, forming a gate insulating layer containing an inorganic material over the gate electrode and the substrate, forming an organic layer containing a photopolymerizable reactive group over the gate insulating layer, polymerizing selectively the organic layer by irradiating the organic layer with light from back side of the substrate, using the gate electrode as a mask, forming an organic polymer layer by removing a residue of the organic layer, being other than polymerized, forming an organosilane film including a hydrolytic group over the gate insulating layer in a region other than a region in which the organic polymer layer is formed, forming source and drain electrodes by applying a composition containing a conductive material over the organic polymer layer, and forming a semiconductor layer over the gate electrode, the source and drain electrodes.04-15-2010
20100090200ORGANIC THIN FILM TRANSISTORS - Organic thin film transistors with improved mobility are disclosed. The transistor contains two interfacial layers between the dielectric layer and the semiconducting layer. One interfacial layer is formed from a siloxane polymer or silsesquioxane polymer. The other interfacial layer is formed from an alkyl-containing silane of Formula (1):04-15-2010
20110198582ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device includes an organic compound layer containing an organic compound in which the 3-position of a benzo[k]fluoranthene ring is bonded to the 8-position of a fluoranthene ring, and an organic compound having a pyrene ring.08-18-2011
20110198579Host material for light-emitting diodes - The present invention relates to a host material comprising a compound having two carbazole moieties which is suitable for blue-emitting OLEDs. Surprisingly, it has been found that when appropriate substituents are present in the carbazole structure, the solubility of the compounds can be improved without any adverse effect on the OLED performance. The present invention further relates to the use of the host materials and to an organic light emitting device comprising the host material.08-18-2011
20090127544Method for producing organic electronic devices on solvent-and/or temperature-sensitive plastic substrates - The invention relates to the production of organic field-effect transistors (OFETs), solar cells or light-emitting diodes (OLEDs) and circuits based thereon on the surface of solvent- and/or temperature-sensitive plastics, e.g. thermoplastic injection-moulded bodies. A protective layer, which comprises a polymer compound, such as polyacrylate, polyphenol, melamine resin or polyester resin, which is applied from an aqueous-alcoholic solution or without solvent to the substrate surface or one of the function-determining layers of the electronic semiconductor component in a low-temperature process at temperatures of less than 100° C. and dried, protects the substrate against undesirable action of solvents and may simultaneously serve as a planarization layer and/or as as electrical insulation layer.05-21-2009
20090206331LIGHT EMITTING DEVICE - A light emitting device and electronic equipment having a long life at a low electric power consumption are provided. A hole transporting region composed of a hole transporting material, an electron transporting region composed of an electron transporting material, and a mixture region in which both the hole transporting material and the electron transporting material are mixed at a fixed ratio are formed within an organic compound film. Regions having a concentration gradient are formed between the mixture region and carrier transporting regions until the fixed ratio is achieved. In addition, by doping a light emitting material into the mixture region, functions of hole transportation, electron transportation, and light emission can be respectively expressed while all of the interfaces existing between layers of a conventional lamination structure are removed. Organic light emitting elements having low electric power consumption and a long life can thus be provided, and light emitting devices and electronic equipment can be manufactured using the organic light emitting elements.08-20-2009
20090206330Organic insulator composition, organic insulating layer including the composition, and organic thin film transistor including the same - An organic insulator composition according to example embodiments may include an organic insulating polymer and an epoxy-based crosslinking agent. The epoxy-based crosslinking agent may have an alkyl group or a fluorine-based side chain. The organic insulator composition may be used to form an organic insulating layer having increased chemical resistance. The organic insulating layer may be used in an organic thin film transistor as a gate insulating layer. Consequently, the occurrence of hysteresis may be reduced or prevented during the operation of the organic thin film transistor, thus resulting in relatively homogeneous properties.08-20-2009
20090256140Light-detecting device structure - A light-detecting device structure comprises a substrate, a vertical organic light-emitting transistor and a light-detecting unit, wherein the vertical organic light-emitting transistor is disposed at a first location on the substrate, and the light-detecting unit is disposed at a second location on the substrate, in which the first and the second locations can be spaced out an appropriate distance as needed. The vertical organic light-emitting transistor emits a light to an object, and the light-detecting unit receives a reflected light from the object. The reflected light received is analyzed to determine a distance between the light-detecting device structure and the object, as well as a shape or a composition of the object.10-15-2009
20110198574Quinoxaline Derivative, and Light-Emitting Device, Electronic Device Using the Quinoxaline Derivative - The present invention provides a novel organic compound having excellent heat resistance. By using the novel organic compound, a light-emitting device and an electronic device having excellent heat resistance can be provided. A quinoxaline derivative represented by the general formula (1) is provided. Since the quinoxaline derivative represented by the general formula (1) has excellent heat resistance, when it is used for a light-emitting element, a light-emitting device using the light-emitting element also have excellent heat resistance. Further, electronic devices having excellent heat resistance can be provided.08-18-2011
20110198578SILOLES SUBSTITUTED BY FUSED RING SYSTEMS AND USE THEREOF IN ORGANIC ELECTRONICS - The present invention relates to the use of siloles substituted by fused ring systems in organic electronics applications, and to specific siloles substituted by fused ring systems and to the use thereof in organic electronics applications.08-18-2011
20110198577ORGANIC ELECTROLUMINESCENT ELEMENT AND DISPLAY DEVICE - An organic electroluminescent element having high light emission efficiency, high color purity, and a long light emission lifetime, and a display device using the same are provided. In an organic electroluminescent element 08-18-2011
20110198580PHOTOACTIVE COMPOSITION AND ELECTRONIC DEVICE MADE WITH THE COMPOSITION - There is provided a photoactive composition including: (a) a first host material comprising a phenanthroline derivative; (b) a second host material comprising an aromatic amine; and (c) an electroluminescent dopant material. The weight ratio of first host material to second host material is in the range of 99:1 to 50:50.08-18-2011
20110198581AROMATIC AMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Disclosed is a long-life organic EL device having high luminous efficiency even after storage at high temperatures. Also disclosed is an aromatic amine derivative which enables to realize such an organic EL device. The aromatic amine derivative is represented by the following general formula (1).08-18-2011
20090272969METHOD OF PATTERNING AN ORGANIC THIN FILM, AN ORGANIC THIN FILM TRANSISTOR, A METHOD OF MANUFACTURING AN ORGANIC THIN FILM TRANSISTOR, AND AN ORGANIC ELECTROLUMINESCENE DISPLAY DEVICE HAVING THE ORGANIC THIN FILM TRANSISTOR - Provided is a method of patterning an organic thin film which can prevent surface damage of an organic semiconductor layer. Also, an organic thin film transistor that can reduce an off-current and can prevent surface damage of the organic semiconductor layer and a method of manufacturing the organic thin film transistor, and an organic electroluminescence display device having the organic thin film transistor are provided. The method of patterning the organic thin film includes forming the organic thin film on a substrate, selectively printing a mask material on a portion of the organic thin film, dry etching an exposed portion of the organic thin film using the mask material, and removing the mask material.11-05-2009
20090278116TRANSISTOR, ORGANIC SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURE OF THE TRANSISTOR OR DEVICE - The invention provides a process for production of a transistor and an organic semiconductor element which allows satisfactory formation of active layers on desired surfaces, even if the active layers are organic semiconductor compound-containing active layers imparted with prescribed properties beforehand. A preferred mode of the process for production of a transistor is a process for production of a transistor provided with a source electrode and drain electrode, an active layer containing an organic semiconductor compound as a current channel between the electrodes, a gate electrode that controls the current flowing through the current channel and an insulating layer disposed between the active layer and gate electrode, wherein the process includes a pasting step in which a working liquid is situated between the active layer and insulating layer and the active layer and insulating layer are attached together.11-12-2009
20080308792DISPLAY DEVICE - A single-crystal semiconductor layer which is separated from a single-crystal semiconductor substrate, and bonded to and provided over a supporting substrate is used, whereby a transistor having uniform characteristics can be formed. A reference circuit having a bipolar transistor is provided, whereby temperature dependence of a driving transistor which is driven by supplying current to the light-emitting element of a pixel is compensated.12-18-2008
20090045396Composition for forming passivation layer and organic thin film transistor comprising the passivation layer - Disclosed herein is a composition including a perfluoropolyether derivative, a photosensitive polymer or a copolymer thereof, and a photocuring agent, a passivation layer, organic thin film transistor, and electronic device including the same, a method of forming the passivation layer and methods of fabricating the organic thin film transistor and electronic device. The organic thin film transistor may prevent or reduce oxygen and moisture from infiltrating thereinto, and thus may prevent or reduce the degradation of the performance thereof caused by ambient air, prevent or reduce the deterioration thereof, and may more easily be formed into a pattern, thereby exhibiting characteristics suitable for use in electronics.02-19-2009
20090114905Organic electrical or electric component with increased lifetime - In order to increase the lifetime of organic electrical or electronic components, the invention provides an organic electrical or electronic component comprising at least one organic functional layer, wherein the component contains an (e-v) quenching substance for singlet oxygen.05-07-2009
20090090904Organic semiconductor device - Provided is an organic tunneling p-n junction diode. The organic tunneling p-n junction diode includes an n-doped organic semiconductor layer and a p-doped organic semiconductor layer which are doped with extrinsic impurities. When either a reverse-bias voltage or a forward-bias voltage is applied, the organic tunneling p-n junction diode is turned off within a predetermined voltage range and has exponential voltage-current characteristics outside the predetermined voltage range.04-09-2009
20090090907Electrochemical device - An electrochemical device is provided, comprising a source contact connected to a first antenna pad, a drain contact connected to a second antenna pad, at least one gate electrode, an electrochemically active element arranged between, and in direct electrical contact with, the source and drain contacts, which electrochemically active element comprises a transistor channel and is of a material comprising an organic material having the ability of electrochemically altering its conductivity through change of redox state thereof, and a solidified electrolyte in direct electrical contact with the electrochemically active element and the at least one gate electrode and interposed between them in such a way that electron flow between the electrochemically active element and the gate electrode(s) is prevented. In the device, flow of electrons between source contact and drain contact is controllable by means of a voltage applied to the gate electrode(s).04-09-2009
20090090903CMOS IMAGE SENSOR HAVING THIOPHENE DERIVATIVES - Provided is a CMOS image sensor that uses thiophene derivatives. The CMOS image sensor includes first through third photoelectric conversion units vertically and sequentially stacked on a semiconductor substrate. The first photoelectric conversion unit detects blue light and comprises a first electrode, a second electrode, and a p-type thiophene derivative layer between the first electrode and the second electrode.04-09-2009
20100123127Light-Emitting Element and Light-Emitting Device - To provide a light-emitting element, a light-emitting device, and an electronic device each formed using the organometallic complex represented by General Formula (G1) as a guest material and a low molecule compound as a host material.05-20-2010
20110168992NOVEL COMPOUND, METHOD FOR PREPARING SAME AND ORGANIC ELECTRONIC DEVICE USING SAME - The present invention relates to a novel compound, a method for manufacturing the same, and an organic electronic device using the same, and the novel compound according to the present invention may act as a hole injection, hole transport, electron injection and transport, or light emitting material in an organic light emitting device and an organic electronic device, and the device according to the present invention shows excellent properties in terms of efficiency, a driving voltage, and stability.07-14-2011
20110168990ORGANIC ELECTROLUMINESCENT DEVICE, DISPLAY, AND ILLUMINATING DEVICE - An organic electroluminescent element including at least an emission layer sandwiched between an anode and a cathode, wherein the emission layer comprises at least a compound represented by Formula (A),07-14-2011
20110168988ORGANIC LIGHT EMITTING DIODE DISPLAY - An OLED display is disclosed. The display includes: a substrate main body, and an organic light emitting diode (OLED) formed on above the substrate main body, where the OLED includes: a first electrode injecting holes, a second electrode injecting electrons, an emission layer formed between the first and second electrodes, a hole injection layer (HIL) and a hole transport layer (HTL) sequentially formed between the first electrode and the emission layer, and a semi-transparent layer formed between the first electrode and the emission layer in red and green pixels.07-14-2011
20110168985Organic Light Emitting Diode Display Device and Method of Manufacturing the Same - An organic light emitting diode display device and a method of manufacturing the same are disclosed. The organic light emitting diode display device includes a substrate having an emission section and anon-emission section, a semiconductor layer located on the substrate, a gate dielectric layer located over an entire front surface of the substrate, a gate electrode located in correspondence to the semiconductor layer, a dielectric layer located over the entire front surface of the substrate, source and drain electrodes and a first electrode located on the dielectric layer and electrically connected to the semiconductor layer, a pixel definition layer exposing a part of the first electrode, a spacer located on the pixel definition layer and located on the non-emission section of the substrate, an organic film layer located on the first electrode, and a second electrode located over the entire front surface of the substrate.07-14-2011
20110168984VISIBLE/NEAR-INFRARED PORPHYRIN-TAPE/C60 ORGANICPHOTODETECTORS - Porphyrin compounds are provided. The compounds may further comprise a fused polycyclic aromatic hydrocarbon or a fused heterocyclic aromatic. Fused polycyclic aromatic hydrocarbon s and fused heterocyclic aromatics may extend and broaden absorption, and modify the solubility, crystallinity, and film-forming properties of the porphyrin compounds. Additionally, devices comprising porphyrin compounds are also provided. The porphyrin compounds may be used in a donor/acceptor configuration with compounds, such as C07-14-2011
20080210932Memory Element, Memory Device, and Semiconductor Device - On object of the invention is to provide a non-volatile memory device, in which data can be added to the memory device after a manufacturing process and forgery and the like by rewriting can be prevented, and a semiconductor device including the memory device. Another object of the invention is to provide a highly-reliable, inexpensive, and nonvolatile memory device and a semiconductor device including the memory device. A memory element includes a first conductive layer, a second conductive layer, a first insulating layer with a thickness of 0.1 nm or more and 4 nm or less being in contact with the first conductive layer, and an organic compound layer interposed between the first conductive layer, the first insulating layer, and the second conductive layer.09-04-2008
20080210931METHODS FOR FORMING AN UNDERCUT REGION AND ELECTRONIC DEVICES INCORPORATING THE SAME - An electronic device having a substrate structure having an undercut region is provided and further included is a method for forming an undercut region of a substrate structure. The method includes forming a patterned protective layer over a first electrode. The method also includes forming the substrate structure over the patterned protective layer. An opening within the substrate structure overlies an exposed portion of the substrate structure. The method further includes removing the exposed portion of the patterned protective layer, thereby exposing a portion of the first electrode and forming an undercut region of the substrate structure. The method still further includes depositing a liquid over the first electrode after removing the exposed portion of the patterned protective layer, and solidifying the liquid to form a solid layer.09-04-2008
20080210930Metal Complex, Light-Emitting Device, and Image Display Apparatus - To provide a novel metal complex suitable as a compound for an organic EL device. A metal complex including a partial structure represented by the following general formula (09-04-2008
20100090204ORGANIC SEMICONDUCTOR ELEMENT AND MANUFACTURE METHOD THEREOF - [Problems] To form an organic semiconductor layer more uniformly in a channel region by allowing formation of a pattern with a higher resolution in an organic semiconductor element.04-15-2010
20120091436ORDERED ORGANIC-ORGANIC MULTILAYER GROWTH - An ordered multilayer crystalline organic thin film structure is formed by depositing at least two layers of thin film crystalline organic materials successively wherein the at least two thin film layers are selected to have their surface energies within ±50% of each other, and preferably within ±15% of each other, whereby every thin film layer within the multilayer crystalline organic thin film structure exhibit a quasi-epitaxial relationship with the adjacent crystalline organic thin film.04-19-2012
20090108253Electronic component - The invention relates to an electronic component comprising a flexible substrate, on the surface of which is arranged a layer stack composed of thin layers, containing at least one electrical functional layer composed of an electrically conductive or semiconducting material, wherein the component comprises at least a first material, a layered second material and a layered third material and wherein, as seen perpendicular to the surface of the substrate the first material is followed by the second material and the second material is followed by the third material, wherein a first adhesion force of the second material to the first material is lower than a second adhesion force of the third material to the first material and the second material has at least one opening, via which the third material is connected to the first material in order to increase the adhesion of the second material to the first material.04-30-2009
20090283758ORGANIC SEMICONDUCTOR, PHOTOELECTRIC CONVERSION ELEMENT AND IMAGE DEVICE - An organic semiconductor includes: a compound represented by formula (I):11-19-2009
20090283757LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, AND ELECTRONIC DEVICE - Disclosed is a light-emitting element with a good carrier balance and manufacturing method thereof which does not require the formation of the heterostructure. The light-emitting element includes an organic compound film containing a first organic compound as the main component (base material) between an anode and a cathode, wherein the organic compound film is provided in contact with the anode and with the cathode. The first organic compound further includes a light-emitting region to which a light-emitting substance is added and includes a hole-transport region to which a hole-trapping substance is added and/or an electron-transport region to which an electron-trapping substance is added. The hole-transport region is located between the light-emitting region and the anode, and the electron-transport region is located between the light-emitting region and the cathode.11-19-2009
20090026444Organic thin film transistor array panel and manufacturing method of the same - An organic thin film transistor array panel includes a substrate, a gate line formed on the substrate and including a gate electrode. A gate insulating layer is formed on the gate electrode and a data line is formed on the gate insulating layer, intersecting the gate line, and including a drain electrode. A source electrode is formed on the gate insulating layer and is spaced apart from the drain electrode, enclosed by the drain electrode. A bank insulating layer includes a first opening exposing the drain electrode and the source electrode and a second opening which exposes at least a portion of the source electrode. An organic semiconductor is formed in the first opening and contacts the drain electrode and the source electrode. A pixel electrode contacts the source electrode through the second opening.01-29-2009
20110168991MOLECULAR ELEMENT, MANUFACTURING METHOD THEREOF, INTEGRATED CIRCUIT DEVICE, MANUFACTURING METHOD THEREOF, THREE-DIMENSIONAL INTEGRATED CIRCUIT DEVICE, AND MANUFACTURING METHOD THEREOF - In one example embodiment, a molecular element is configured by bridging a gap between a source electrode and a drain electrode by a functional molecule. The functional molecule arises from covalent linkage of a side chain composed of a pendant molecule that has dielectric constant anisotropy and/or dipole moments and in which orientation change occurs due to an electric field to a main chain composed of a conjugated molecule in which structural change occurs due to the orientation change of the pendant molecule and an electrical characteristic changes. The molecular element is made to work as a diode, a transistor, or a memory by an electric field applied to the pendant molecule of the functional molecule by gate electrodes.07-14-2011
20110168987Organic Electronic Device - An organic electronic device comprising: an anode; a hole injecting layer; a cathode; and organic semiconductive material disposed between the hole injecting layer and the cathode, wherein the cathode comprises an electron-injecting material having a higher electron-injection efficiency than BaO/Al, and wherein the hole injecting layer comprises a hole injecting material which has a lower workfunction than PEDOT:PSS (1:6).07-14-2011
20090090906ORGANIC THIN FILM TRANSISTOR DEVICE AND MANUFACTURING METHOD THEREFOR - An organic TFT device in which a plurality of organic TFTs can be formed in a narrow region and a manufacturing method therefor are proposed. The organic TFT device comprises a substrate, and a plurality of organic TFTs disposed in a transistor region on the substrate. The organic TFT device further comprises: a bank enclosing the transistor region and having a single opening; and a single organic semiconductor layer demarcated by the bank and forming a channel for the organic TFTs.04-09-2009
20090289248DIOXAANTHANTHRENE COMPOUND AND SEMICONDUCTOR DEVICE - A dioxaanthanthrene compound is represented by structural formula (11-26-2009
20090289247Organic-semiconductor-based infrared receiving device - An organic-semiconductor-based infrared receiving device comprises an electrode layer having a positive layer and a negative layer to form an electric field, and a transport layer located between the positive and negative layers and having a first and a second predetermined material combined in a predetermined ratio. The energy of infrared light from a light source is received at an interface between the first and second materials. The thickness of the transport layer can be increased to enhance the light absorbance in the infrared light range to form electron-hole pairs, which are then parted to form a plurality of electrons and holes driven by the electric field to move to the negative layer and the positive layer, respectively, so that a predetermined photocurrent is generated.11-26-2009
20090289246METHOD FOR PRODUCING AT LEAST ONE MULTILAYER BODY, AND MULTILAYER BODY - The invention concerns a process for the production of a multi-layer body, wherein the multi-layer body includes at least two functional layers on a top side of a carrier substrate, which are structured in register relationship with each other, by a procedure whereby an underside of the carrier substrate is prepared in such a way that in a first region there results a transparency for a first exposure radiation and in at least one second region there results a transparency for at least one second exposure radiation different therefrom in register relationship with the first region, the underside is successively exposed with the first and the at least one second exposure radiation and the first exposure radiation is used for structuring a first functional layer and the at least one second exposure radiation is used for structuring at least one second functional layer on the top side of the carrier substrate.11-26-2009
20100140598LARGE AREA LIGHT EMITTING DIODE LIGHT SOURCE - The present invention relates to a LED light source comprising at least one layer of light emitting material (06-10-2010
20110168983Semiconductor Device and Manufacturing Method Thereof - Disclosed are a semiconductor device and a manufacturing method thereof. The semiconductor device can include a recess formed in an active area of a semiconductor substrate, an insulating layer formed in the recess, a source electrode and a drain electrode spaced apart from the source electrode on the insulating layer, a carbon nanotube layer formed between the source and drain electrodes, an oxide layer pattern covering at least the carbon nanotube layer, and a gate electrode formed on the oxide layer pattern.07-14-2011
20090294763ORGANIC ELECTROLUMINESCENT DEVICE AND DISPLAY UNIT - Disclosed herein is an organic electroluminescent device including: an anode; a cathode; and an organic layer including a light-emitting layer, a naphthacene compound layer containing a naphthacene compound, and an electron transport layer; the light-emitting layer being composed of a light-emitting guest material and an aromatic hydrocarbon compound having the skeleton of anthracene, and the naphthacene compound layer containing no less than 80 wt % of naphthacene compound represented by the formula (1) below and having a thickness of 0.5 to 10 nm and being in contact with that side of the electron transport layer which faces the light-emitting layer.12-03-2009
20100213454PROCESS AND MATERIALS FOR MAKING CONTAINED LAYERS AND DEVICES MADE WITH SAME - There is provided a process for forming a contained second layer over a first layer. The process comprises forming the first layer having a first surface energy and then treating the first layer with a photocurable surface-active composition which is a fluorinated ester or fluorinated imide of an α,β-unsaturated polyacid; exposing the photocurable surface-active composition patternwise with radiation resulting in exposed areas and unexposed areas; developing the photocurable surface-active composition to remove the unexposed areas resulting in a first layer having untreated portions in the unexposed areas and treated portions in the exposed areas, where the treated portions have a second surface energy that is lower than the first surface energy; and forming the second layer on the untreated portions of the first layer. There is also provided an organic electronic device made by the process.08-26-2010
20080296566Making organic thin film transistor substrates for display devices - An organic thin film transistor substrate for a display device includes a gate line, a data line insulated from the gate line, at least two organic thin film transistors, each of which is connected between the gate line and the data line, and both of which are commonly connected to a main drain electrode, and a pixel electrode connected to the main drain electrode.12-04-2008
20080296564PHOTOELECTRIC CONVERSION ELEMENT AND SOLAR CELL - A photoelectric conversion element having a pair of electrodes, and a semiconductor layer comprising a semiconductor carrying a dye and an electrolyte layer is disclosed. The dye is represented by Formulas 1 or 2;12-04-2008
20080296560Method for Manufacturing Semiconductor Device - The present invention provides a method for manufacturing a semiconductor device which can reduce characteristic deterioration due to impurity incorporation. The present invention also provides a semiconductor device and an electric appliance with reduced characteristic deterioration due to the impurity incorporation. The method for manufacturing a semiconductor device has a process for depositing an organic semiconductor. In addition, a process for introducing and exhausting gas having low reactivity while heating a treater so that temperature in the inside of the treater is higher than sublimation temperature of the organic semiconductor after taking a subject deposited with the organic semiconductor from the treater.12-04-2008
20110204352FUSED RING AROMATIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE USING SAME - There are provided a novel fused ring aromatic compound and an organic light-emitting device which has an optical output with extremely high efficiency and luminance, and also has extremely high durability. The organic light-emitting device includes an anode, a cathode, and a layer including an organic compound interposed between the anode and the cathode, wherein the layer comprises a fused ring aromatic compound represented by the general formula (I):08-25-2011
20110204350Composition and organic insulating film prepared using the same - Disclosed is a composition, an organic insulating film including the same, an organic thin film transistor including the organic insulating film, an electronic device including the organic thin film transistor and methods of fabricating the same. In the composition, an organic polymer material having a carboxyl group and an organic silane material having an electron-donating group are included to thus realize a structure which may further stabilize an unreacted crosslinking material. Thereby, a hysteresis phenomenon may be decreased and transparency may be increased, thus making it possible to assure stability upon exposure to air. Accordingly, the lifetime of the organic thin film transistor may be lengthened.08-25-2011
20110204347ORGANIC LIGHT-EMITTING DIODE AND METHOD FOR PREPARING THE SAME - An organic light-emitting diode including a film having a thermal evaporation material and metal particles between a first electrode and a substrate and/or on a second electrode.08-25-2011
20120292608ORGANIC ELECTROLUMINESCENCE ELEMENT - A light emitting organic thin film including at least one compound represented by Formula (PQ-1) and at least one compound represented by Formula (BN-1).11-22-2012
20120292605ORGANIC LIGHT EMITTING DIODE DEVICE - In one aspect, an organic light emitting diode device that includes a first electrode, a second electrode facing the first electrode, an emission layer interposed between the first electrode and the second electrode and an auxiliary layer interposed between either one of the first electrode and the second electrode and the emission layer, wherein the auxiliary layer includes a substituted or unsubstituted pyrene-based compound having at least one appended phenyl group is provided.11-22-2012
20120292599CHARGE TRANSPORT MOLECULE GRADIENT - The present embodiments are generally directed to layers that are useful in imaging apparatus members and components, for use in electrophotographic, including digital, apparatuses. More particularly, the embodiments pertain to an electrophotographic imaging member having a charge transport layer in which a charge transport molecule (CTM) concentration gradient is formed through a single coating pass using only a single charge transport layer solution, and time-of-flight based methods of measuring the CTM gradient through the thickness of the charge transport layer.11-22-2012
20110204348WHITE LIGHT EMITTING ORGANIC ELECTROLUMINESCENCE ELEMENT, DISPLAY AND ILLUMINATOR - A white light emitting organic electroluminescent element comprising two electrodes having therebetween one or more constituting layers including a light emission layer, the one or more constituting layers comprising at least two phosphorescent compounds, wherein at least one of the phosphorescent compounds is a green light emitting ortho metalated complex; and a spectral ratio of the green light emitting ortho metalated complex in ae emission spectral distribution in a range of 400-800 nm is not less than 60%.08-25-2011
20110204342Organic light-emitting display device and method of manufacturing the same - An organic light-emitting display device includes a substrate, a first electrode on the substrate, the first electrode including a reflection film, a hole injection layer on the first electrode, a hole transport layer on the hole injection layer, an emission layer on the hole transport layer, an electron injection transport layer on the emission layer, a second electrode on the electron injection transport layer, the second electrode including a semi-transmissive reflective material, and a control layer positioned between a lower surface of the hole injection layer and an upper surface of the hole transport layer, the control layer including an organic material and having a refractive index lower than that of an adjacent layer.08-25-2011
20110204354INDENOPYRENE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE USING THE COMPOUND - Provided is an organic light-emitting device having an optical output with high luminance and high color purity with extremely high efficiency. The organic light-emitting device includes an organic layer between the anode and the cathode, in which one of the anode and the cathode is a transparent electrode or a semi-transparent electrode and at least one layer of the organic layer contains at least one kind of indenopyrene compound having a specific structure.08-25-2011
20090261323N,N'-DI(ARYLALKYL)-SUBSTITUTED NAPHTHALENE-BASED TETRACARBOXYLIC DIIMIDE COMPOUNDS AS N-TYPE SEMICONDUCTOR MATERIALS FOR THIN FILM TRANSISTORS - A thin film transistor comprises a layer of organic semiconductor material comprising a tetracarboxylic diimide naphthalene-based compound having, attached to each of the imide nitrogen atoms, a substituted or unsubstituted arylalkyl moiety. Such transistors can further comprise spaced apart first and second contact means or electrodes in contact with said material. Further disclosed is a process for fabricating an organic thin-film transistor device, preferably by sublimation deposition onto a substrate, wherein the substrate temperature is no more than 100° C.10-22-2009
20090261324ORGANIC LIGHT EMITTING DIODE AND DISPLAY USING THE SAME - An organic light emitting diode comprising a pair of electrodes and a stack including a hole transport layer, a light emitting layer, and an electron transport layer, the stack being intermediate between the electrodes, the light emitting layer being of a material having hole mobility and electron mobility equal to or lower than hole mobility of the hole transport layer and electron mobility of the electron transport layer, respectively.10-22-2009
20090261322FULL-COLOR ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - A full-color organic light emitting diode display device and a method of fabricating the same. The display device includes a substrate having red, green and blue light emitting regions, a first electrode on the substrate, an organic layer on the first electrode and including red, green and blue light emitting layers respectively corresponding to the red, green and blue light emitting regions, and a second electrode on the entire surface of the substrate. Here, the organic layer includes a hole injection layer and an electron transport layer, and the organic layer in the red right emitting region includes a hole suppression layer including a material in the electron transport layer. The method includes forming the hole suppression layer on the red light emitting layer in the red light emitting region. In the method, the hole suppression layer is formed of a material for forming the electron transport layer.10-22-2009
20090261320LAMINATED STRUCTURE, ELECTRONIC ELEMENT USING THE SAME, MANUFACTURING METHOD THEREFOR, ELECTRONIC ELEMENT ARRAY, AND DISPLAY UNIT - A disclosed laminated structure includes a substrate; a wettability varying layer formed on the substrate, the wettability varying layer including a material whose critical surface tension is changed by receiving energy; and an electrode layer formed on the wettability varying layer, the electrode layer forming a pattern based on the wettability varying layer. The material whose critical surface tension is changed by receiving energy includes a polymer including a primary chain and a side chain, the side chain including a multi-branched structure.10-22-2009
20100044692ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to an organic light emitting diode (OLED) display and a manufacturing method thereof. The OLED display includes a substrate member that includes a plurality of pixel areas. A thin film transistor (TFT) is formed on the substrate member and includes a gate electrode, a source electrode, and a drain electrode. A planarization layer is formed on the TFT and includes a contact hole through which the drain electrode is partially exposed. A pixel electrode is formed on the planarization layer and is connected to the drain electrode of the TFT through the contact hole. A pixel defining layer is formed on the planarization layer and has a through opening. Light scattering spacers are formed on the pixel defining layer to scatter reflected light and may have various shapes and dimensions.02-25-2010
20090166613Composition for Forming Gate Insulating Layer of Organic Thin-Film Transistor and Organic Thin Film Transistor Using the Same - The present invention relates to a composition for forming a gate insulating layer of an organic thin film transistor comprising polyarylate, and an organic thin film transistor comprising a gate insulating layer, which is formed using the composition, in contact with an organic semiconductor channel.07-02-2009
20110266529Remote doping of organic thin film transistors - Organic electronic devices comprising “remotely” doped materials comprising a combination of at least three layers. Such devices can include “remotely p-doped” structures comprising: a channel layer comprising at least one organic semiconductor channel material; a dopant layer, which comprises at least one p-dopant material and optionally at least one organic hole transport material; and a spacer layer disposed between and in electrical contact with both the channel layer and the dopant layer, comprising an organic semiconducting spacer material; or alternatively can include “remotely n-doped” structures comprising a combination of at least three layers: a channel layer comprising at least one organic semiconductor channel material; a dopant layer which comprises at least one organic electron transport material doped with an n-dopant material; and a spacer layer disposed between and in electrical contact with the channel layer and the dopant layer, comprising an organic semiconducting spacer material. Such devices include “remotely doped” field effect transistors comprising the doped structures described above.11-03-2011
20100102305MATERIALS FOR ELECTROLUMINESCENCE AND THE UTILIZATION THEREOF - The present invention relates to organic semiconductors which contain structural units L=X and in addition structural units which emit light from the triplet state. The materials according to the invention are more soluble and easier to synthesise and are therefore more suitable for use in organic light-emitting diodes than comparative materials in accordance with the prior art.04-29-2010
20100102299ORGANIC SEMICONDUCTOR COMPOSITE, ORGANIC TRANSISTOR MATERIAL AND ORGANIC FIELD EFFECT TRANSISTOR - The present invention provides an organic semiconductor composite containing a certain thiophene compound and carbon nanotubes, which can be formed into a film by a coating process such as an inkjet process, has high charge mobility and can maintain a high on/off ratio even in air, an organic transistor material and an organic field effect transistor.04-29-2010
20080246027Organic light emitting display and manufacturing method thereof - An organic light emitting display and a fabricating method thereof, where the display has sub-pixels of various types, which have distinctive shapes formed therein according to type is disclosed. Pixels of a particular type e.g., red, green, or blue, can be identified through visual recognition of the distinctive pattern.10-09-2008
20080246024Method For Patterning An Organic Material To Concurrently Form An Insulator And A Semiconductor And Device Formed Thereby - A method for fabricating an electronic device includes forming a layer of precursor material for forming a semi-conductor material in a cured state and exposing the precursor material to light. The precursor is heated in the presence of the light to form an insulator in areas exposed to light and a semiconductor in areas not exposed to the light. The light is preferably in the visible range. Suitable precursors may include 6,13-dihydro-6,13-(2,3,4,5-tetrachloro-2,4-cyclohexadieno)-pentacene (10-09-2008
20080246025Semiconductor device and method for manufacturing the same - It is an object to provide an element structure in which defects are not easily generated and a semiconductor device that has the element. An element has a structure in which a layer containing an organic compound is interposed between a pair of electrode layers of a first electrode layer and a second electrode layer. At least one of the pair of the electrode layers has a Young's modulus of 7.5×1010-09-2008
20080246028MEMORY DEVICE, SEMICONDUCTOR DEVICE, AND METHOD FOR MANUFACTURING MEMORY DEVICE - Objects are to solve inhibition of miniaturization of a memory element and complexity of a manufacturing process thereof and to provide a nonvolatile memory device and a semiconductor device each having the memory device, in which data can be additionally written except at the time of manufacture and in which forgery or the like caused by rewriting of data can be prevented, and a memory device and a semiconductor device that are inexpensive and nonvolatile. The present invention provides a semiconductor device that includes a plurality of memory elements, in each of which a first conductive layer, a second conductive layer disposed beside the first conductive layer, and a mixed film that are disposed over the same insulating film. The mixed film contains an inorganic compound, an organic compound, and a halogen atom and is disposed between the first conductive layer and the second conductive layer.10-09-2008
20110204344METHOD OF STORING LIQUID COMPOSITION FOR ORGANIC SEMICONDUCTOR ELEMENT - Problem to be solved by the present invention is to prevent volatilization of an organic solvent while a liquid composition for an organic semiconductor device is stored by placing in a container, and to prevent deterioration in function of an organic compound for forming an organic semiconductor device. Means for solving the problem is a method of storing a liquid composition for an organic semiconductor device comprising the step of storing the liquid composition for an organic semiconductor device containing an organic compound for forming an organic semiconductor device, and an organic solvent, in a container having a container body, a packing covering an opening part of the container body, and a lid, wherein the container body has an inner wall formed of a material which does not chemically act on the organic solvent nor on the organic compound, and a surface of the packing, which covers the opening part and which comes into contact with the opening-periphery part when the packing and the lid are mounted to the container body to form a sealed state, is formed of a material containing a resin having fluorine atom.08-25-2011
20110204335ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a first plurality of pixels having an emission color that is blue-green and a second plurality of pixels having an emission color that is red/red-orange, the second plurality of pixels being laterally spaced from the first plurality of pixels. The additive mixing of the emitted colors results in an overall emission of white light.08-25-2011
20110204349DIINDENOPICENE COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE SAME - The present invention provides an organic light emitting device which shows a blue light emission hue of remarkably good color purity and has a high-efficiency and high-luminance optical output. An organic light emitting device including an anode 08-25-2011
20110204353Light Emitting Element and Light Emitting Device - A high efficient white emission light emitting element having peak intensity in each wavelength region of red, green, and blue is provided. Specifically, a white emission light emitting element having an emission spectrum that is independent of current density is provided. A first light emitting layer 08-25-2011
20130181194ORGANIC LIGHT EMITTING DEVICE - Provided is an organic light emitting device. The organic light emitting device comprising a first light emitting part on a substrate, emitting a first light of a first wavelength, wherein the first light emitting part includes a transparent first electrode, a first organic light emitting layer, and a transparent second electrode sequentially stacked on the substrate, a second light emitting part on the first light emitting part, emitting a second light of a second wavelength, wherein the second light emitting part includes a transparent third electrode, a second organic light emitting layer, and a reflective fourth electrode sequentially stacked on the first light emitting part, and a fluorescent material disposed at least one between the substrate and the first light emitting part, and between the first light emitting part and second light emitting part.07-18-2013
20110204346SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, AND ELECTRONIC APPARATUS - A semiconductor device including: a substrate; a first electrode and a second electrode, each being formed on the substrate; a first region that is positioned between the first electrode and the second electrode; a second region that is connected with the first region; an organic semiconductor layer that is provided in the first region and in the second region; and a receptor of the organic semiconductor layer, the receptor being provided so as to surround the second region and having an opening that extends from the second region to the first region.08-25-2011
20110204343Light-Emitting Organic Component, Arrangement Having a Plurality of Light-Emitting Oranic Components and Electrode Structure - The invention relates to a light-emitting organic component, in particular a light-emitting organic diode, having an electrode and a counter electrode and an organic region arranged between the electrode and the counter electrode, the organic region being formed between the electrode and the counter electrode with a uniform material composition over its planar expansion, the electrode being formed by comb-shaped sub-electrodes electrically shorted among each other for which the comb-shaped electrode sections protruding from a respective comb-shaped electrode connecting section are arranged intermeshing with the organic region at least in an overlap region. Furthermore, the invention relates to an array with a serial connection of several light-emitting organic components and an electrode structure for an electronic component.08-25-2011
20080251784Organic Semiconductor Material, Organic Transistor, Field Effect Transistor, Switching Device and Thiazole Compound - An organic semiconductor material comprising a compound having a substructure represented by Formula (10):10-16-2008
20080251785Display device and method of fabricating the same - A display device includes a thin film transistor (TFT) on a substrate, the TFT including source/drain electrodes, a cover layer on the source/drain electrodes, and a light source including at least one electrode, the electrode being electrically connected to the source/drain electrodes of the TFT through the cover layer, wherein the cover layer includes a same material as the electrode of the light source.10-16-2008
20090014716ORGANIC THIN-FILM TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A disclosed organic thin-film transistor includes a gate electrode formed on a substrate, a gate insulation film formed on the gate electrode, a source electrode and a drain electrode formed, with a gap inbetween, at least over the gate electrode on which the gate insulation film is formed, an organic semiconductor layer formed in a region including the gap, an interlayer insulation film formed to cover the organic semiconductor layer, and a conductive layer formed on the interlayer insulation film and connected to the drain electrode. A part of the organic semiconductor layer is formed on the interlayer insulation film.01-15-2009
20100096623Forming electrodes to small electronic devices having self-assembled organic layers - In one embodiment of the invention, a method of fabricating a SAM device comprises the steps of: (a) providing a substrate having a top surface and a first metal electrode disposed on the top surface, (b) annealing the first metal electrode, (c) forming a SAM layer on a major surface of the first electrode, the SAM layer having a free surface such that the SAM is disposed between the free surface and the major surface of the first electrode, and (d) forming a second metal electrode on the free surface of the molecular layer. Forming step (d) includes the step of (d04-22-2010
20110198576AMINO COMPOUND FOR ORGANIC LIGHT-EMITTING DEVICE AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - An amino compound for an organic light-emitting device of general formula [1]:08-18-2011
20110198575COMPOSITIONS COMPRISING NOVEL COMPOUNDS AND ELECTRONIC DEVICES MADE WITH SUCH COMPOSITIONS - The present invention relates to novel compounds and polymers, compositions comprising novel compounds or polymers, and electronic devices comprising at least one layer containing the compound or polymer.08-18-2011
20110198572ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD FOR MANUFACTURING THE SAME - An OLED display having an improved pad area, and a manufacturing method thereof. The OLED display includes a substrate including a display area and a pad area, an organic light emitting element formed in the display area, a plurality of pads formed in the pad area, and receiving an external signal for light emission of the organic light emitting element and transmitting the signals to the organic light emitting element, and a planarization layer insulating the pads. The planarization layer includes a recess portion formed between the pads.08-18-2011
20130181193ORGANIC LIGHT EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME - Provided is an organic light emitting device. The organic light emitting devices includes: a light emitting part where a first electrode, an organic light emitting layer, and a second electrode are stacked ; and a thin film layer having a plurality of holes and micro-resonating the light emitted from the organic light emitting layer.07-18-2013
20100127251Aryl-Aryl Dendrimers - Light emitting devices are described which incorporate, as the light emitting element, a dendrimer of which the constituent dendrons include a conjugated dendritic structure comprising aryl and/or heteroaryl groups connected to each other via bonds between sp05-27-2010
20090166611Organic Transistor and Manufacturing Method Thereof - [Problems] To provide an organic transistor which can achieve a reduced leak current from a gate electrode.07-02-2009
20090166615ORGANIC LIGHT-EMITTING ELEMENT AND DISPLAY DEVICE - An organic light-emitting element has an anode, a cathode, and a layer including an organic compound between the anode and the cathode. The layer including the organic compound has at least one tetracyano compound represented by at least one of Formula (1) or (2) below.07-02-2009
20090166614FLUORINATED RYLENETETRACARBOXYLIC ACID DERIVATIVES AND USE THEREOF - The present invention relates to fluorinated rylenetetracarboxylic acid derivatives, to a process for their preparation and to their use, especially as n-type semiconductors.07-02-2009
20130214268XANTHONE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - An organic light-emitting device that realizes high-emission efficiency and low-driving voltage is provided. The organic light-emitting device contains a xanthone compound represented by general formula [1].08-22-2013
20130214266ORGANIC EL PANEL AND PROCESS FOR PRODUCTION THEREOF - An organic EL panel (08-22-2013
20080277651ORGANIC NON-VOLATILE MEMORY MATERIAL AND MEMORY DEVICE UTILIZING THE SAME - Disclosed is an organic non-volatile memory (ONVM) material including nanoparticles evenly dispersed in a first polymer. The nanoparticles have a metal core covered by a second polymer to form a core/shell structure, and the first polymer has a higher polymerization degree and molecular weight than the second polymer. The ONVM material of the invention has high uniformity, thereby stabilizing the electric properties of the memory device, such as increasing rewrite counts, increasing data retention time, reducing driving voltage, reducing write current, and enhancing current on/off ratio.11-13-2008
20080277654Organic light emitting diode with fluorinion-doped anode and method for fabricating same - An exemplary organic light emitting diode (11-13-2008
20080277653Semiconductor Element, and Display Pixel and Display Panel using the same - In a semiconductor element, and a display pixel and a display panel using the same, the semiconductor element includes a first electrode, a second electrode, an organic light-emitting layer and a third electrode. The second electrode and the first electrode are disposed separately. The organic light-emitting layer is electrically connected with the first electrode and the second electrode. The third electrode is disposed above the organic light-emitting layer.11-13-2008
20080277652CARBON-CONTAINING SEMICONDUCTING DEVICES AND METHODS OF MAKING THEREOF - Embodiments of the present invention relate to semiconducting carbon-containing devices and methods of making thereof. The semi-conducting carbon containing devices comprise an n-type semiconducting layer and a p-type semiconducting layer, both of which are positioned over a substrate. The n-type semiconducting layer can be formed by pyrolyzing a carbon- and nitrogen-containing polymer, and the p-type semiconducting layer can be formed by pyrolyzing an aromatic- and aliphatic-group-containing polymer. In some embodiments, the devices are solar cell devices.11-13-2008
20080277648Conductive Thin Film and Thin Film Transistor - [Object] To provide an inexpensive and flexible conductive thin film which is excellent in carrier mobility and electric conductivity and which is formed by highly orienting nanotube or an electronic functional organic material by simple and convenient means, as well as a thin film transistor using the conductive thin film.11-13-2008
20080283825Dual-Gate Transistors - A field effect transistor device comprising: a source electrode; a drain electrode; a semiconductive region comprising an organic semiconductor material and defining a channel of the device between the source electrode and the drain electrode; a first gate structure comprising a first gate electrode and a first dielectric region located between the first gate electrode and the semiconductive region; and a second gate structure comprising a second gate electrode and a second dielectric region located between the second gate electrode and the semiconductive region; whereby the conductance of the semiconductor region in the channel can be influenced by potentials applied separately or to both the first gate electrode and the second gate electrode.11-20-2008
20080283827FUSED-FLUORENE-CONTAINING MATERIALS AS SEMICONDUCTOR MATERIALS FOR THIN FILM TRANSISTORS - A thin film transistor comprises a layer of organic semiconductor material comprising an organic semiconductor material that comprises fused-fluorene-containing materials. Such transistors can further comprise spaced apart first and second contact means or electrodes in contact with said material. Further disclosed is a process for fabricating a thin film transistor device, preferably by sublimation or solution-phase deposition onto a substrate, wherein the substrate temperature is no more than 150° C.11-20-2008
20080283826ARYL DICARBOXYLIC ACID DIIMIDAZOLE-BASED COMPOUNDS AS N-TYPE SEMICONDUCTOR MATERIALS FOR THIN FILM TRANSISTORS - A thin film transistor comprises a layer of organic semiconductor material comprising an organic semiconductor material that comprises an aryl dicarboxylic acid diimidazole-based compound. Such transistors can further comprise spaced apart first and second contact means or electrodes in contact with said material. Further disclosed is a process for fabricating ac thin film transistor device, preferably by sublimation or solution-phase deposition onto a substrate, wherein the substrate temperature is no more than 150° C.11-20-2008
20080290337Ultrathin Dielectrics and the Application Thereof in Organic Field Effect Transistors - An organic field effect transistor, having a substrate, a source electrode, a drain electrode and a gate electrode and an organic semiconductor material is disclosed. Arranged between the gate electrode and the organic semiconductor material is a dielectric layer (gate dielectric) obtained from a self-assembled monolayer of an organic compound having an anchor group, a linker group, a head group, and an aliphatic orientating group, the anchor group, the linker group, the head group, and the aliphatic orientating group being combined with one another in the order stated.11-27-2008
20080290339ORGANIC TRANSISTOR, METHOD OF FORMING ORGANIC TRANSISTOR AND ORGANIC EL DISPLAY WITH ORGANIC TRANSISTOR - The present invention is directed to manufacturing an organic transistor with an organic semiconductor film formed by a coating method, without involving a process of forming a rib for forming the organic semiconductor film. To be more specific, the organic transistor of the present invention includes: (1) a source electrode part and a drain electrode part which are formed on a substrate; (2) rib selectively formed on part of the source electrode part and the drain electrode part; (3) an organic semiconductor film placed in the region defined by the ribs and connecting the source electrode part and the drain electrode part; and (4) a gate electrode formed on the organic semiconductor film through a gate insulating film. The organic transistor of the present invention is characterized in that there is a gap between the rib formed on the source electrode part and the rib formed on the drain electrode part.11-27-2008
20120292607ORGANIC ELECTROLUMINESCENCE DEVICE - As an organic electroluminescence device that exhibits superior external quantum efficiency and durability during driving at high temperature, and small variation in chromaticity and small increase in voltage after high-temperature driving, it is provided that the organic electroluminescence device including on a substrate a pair of electrodes and at least one layer of an organic layer including a light emitting layer disposed between the electrodes, wherein the light emitting layer contains at least one specific blue phosphorescent iridium complex and any layer of the at least one layer of an organic layer contains at least one compound represented by Formula (1):11-22-2012
20120292606AROMATIC AMINE DERIVATIVE, AND ORGANIC ELECTROLUMINESCENT ELEMENT - An aromatic amine derivative including a substituent A and a substituent B each represented by the formula (1) or (2) and having an arylene group bound to a carbazole structure, in which the substituent A and the substituent B include groups different from each other in the position at which the arylene group is bonded to the carbazole structure, and the substituent A and the substituent B are bonded to the same nitrogen atom or different nitrogen atoms in the molecule; an organic electroluminescent device including an organic thin-film layer formed of one or more layers including at least a light emitting layer, the organic thin-film layer being interposed between a cathode and a anode, in which at least one layer of the organic thin-film layer contains the aromatic amine derivative, and the molecules are rarely crystallized.11-22-2012
20120292603Heterocyclic compound, organic light-emitting device including the heterocyclic compound, and flat display device including the organic light-emitting device - A heterocyclic compound includes compounds represented by Formula 1 or Formula 2 below:11-22-2012
20120292601PHOSPHORESCENT HETEROLEPTIC PHENYLBENZIMIDAZOLE DOPANTS AND NEW SYNTHETIC METHODOLOGY - Novel heteroleptic iridium complexes are provided. These iridium complexes are useful compounds in OLED devices. The ligands for these novel complexes may be obtained using a new synthetic methodology that utilizes manganese dioxide.11-22-2012
20120292600PHOSPHORESCENT HETEROLEPTIC PHENYLBENZIMIDAZOLE DOPANTS - Novel phosphorescent heteroleptic iridium complexes with benzimidazole and phenylpyridine ligands are provided. These iridium complexes can improve OLED properties, and are useful in white light applications.11-22-2012
20100127249ELECTROPHORETIC DISPLAY DEVICE AND METHOD FOR FABRICATING THE SAME - An electrophoretic display device includes: a first substrate having a plurality of pixels formed in a plurality of vertical pixel rows and a plurality of horizontal pixel rows; a plurality of data lines formed at every vertical pixel row of the first substrate; a thin film transistor (TFT) formed at each pixel of the first substrate and including a source electrode, a drain electrode, an organic semiconductor layer, and a gate electrode; a passivation layer formed on the TFTs and the data lines of the first substrate and including a first contact hole exposing the drain electrode of the TFT and a second contact hole exposing the gate electrode of the TFT; a pixel electrode formed on the passivation layer at each pixel of the first substrate and connected with the drain electrode of the TFT via the first contact hole of the passivation layer; a plurality of gate lines formed on the passivation layer at every horizontal pixel row of the first substrate and connected with the gate electrode of the TFT via the second contact hole of the passivation layer; a second substrate attached to the first substrate in a facing manner; a common electrode formed on the second substrate; and an electrophoretic film formed between the first and second substrates.05-27-2010
20100127245Transmitter and associated display device - The invention relates to a light transmitter comprising two electrodes facing each other, and at least one light-emitting organic layer with two ends. The thickness of the organic layer varies continuously between the two ends. The invention also relates to a display device comprising such a transmitter.05-27-2010
20080308793Composition and organic insulator prepared using the same - Disclosed are a composition including a silane-based organic/inorganic hybrid material having a multiple bond and one or more organic metal compounds and/or one or more organic polymers, an organic insulator including the composition, an organic thin film transistor (OTFT) including the organic insulator and an electronic device including the OTFT. The organic insulator including the composition for preparing an organic insulator has increased charge mobility and an increased on/off current ratio, thus exhibiting improved properties, and the organic thin film transistor manifests uniform properties due to the absence of hysteresis.12-18-2008
20080308791ORGANIC FIELD EFFECT TRANSISTOR AND MAKING METHOD - In an organic field effect transistor with an electrical conductor-insulator-semiconductor structure, the semiconductor layer is made of an organic compound, and the insulator layer is made of a polymer obtained through polymerization or copolymerization of 2-cyanoethyl acrylate and/or 2-cyanoethyl methacrylate.12-18-2008
20080308789Field Effect Transistor and Method of Producing the Same - An object of the present invention is to provide a field effect transistor showing high field-effect mobility and a high ON/OFF ratio, which can be produced simply by using a porphyrin compound with excellent crystallinity and orientation. The field effect transistor according to the present invention transistor contains at least an organic semiconductor layer, wherein the organic semiconductor layer contains at least a porphyrin compound and has a maximum diffraction intensity I12-18-2008
20110204334ORGANIC THIN FILM TRANSISTOR AND METHOD OF FORMING THE SAME - Provided are an organic thin film transistor and a method of forming the same. The method comprises forming a gate electrode on a substrate, forming a gate dielectric, which covers the gate electrode and includes a recess region at an upper portion, on the substrate, forming a source electrode and a drain electrode in the recess region, and forming an organic semiconductor layer between the source electrode and the drain electrode in the recess region.08-25-2011
20130181192ORGANIC FLOATING GATE MEMORY DEVICE HAVING PROTEIN AND METHOD OF FABRICATING THE SAME - An organic floating gate memory device having protein and a method of fabricating the same are disclosed. The organic floating gate memory device of the present invention comprises: a substrate; a gate electrode on the substrate; a gate dielectric layer covering the gate electrode; a floating gate on the gate dielectric layer; a protein dielectric layer covering the floating gate; and an organic semiconductor layer, a source and a drain, wherein the organic semiconductor layer, the source and the drain are disposed over the protein dielectric layer07-18-2013
20080277655ORGANIC SEMICONDUCTOR DEVICE - An organic semiconductor device with a vertical structure having both functions of an organic thin film transistor and light-emitting element, where the electrical characteristics as both the organic thin film transistor and light-emitting element can be controlled in the case of forming a gate electrode with an organic conductive film, and a manufacturing method thereof. The above organic semiconductor device has such a structure that organic semiconductor films are sandwiched between a pair of electrodes functioning as a source electrode and drain electrode of an organic thin film transistor and also functioning as an anode and cathode of a light-emitting element, a thin organic conductive film functioning as a gate electrode is sandwiched between the organic semiconductor films, and a part of the organic conductive film is electrically connected to an auxiliary electrode, thereby the electrical characteristics as both the organic thin film transistor and light-emitting element can be controlled.11-13-2008
20080296565METHOD OF FABRICATING POLYCRYSTALLINE SILICON LAYER, TFT FABRICATED USING THE SAME, METHOD OF FABRICATING TFT, AND ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE HAVING THE SAME - A method of fabricating a polycrystalline silicon layer includes: forming an amorphous silicon layer on a substrate; crystallizing the amorphous silicon layer into a polycrystalline silicon layer using a crystallization-inducing metal; forming a metal layer pattern or metal silicide layer pattern in contact with an upper or lower region of the polycrystalline silicon layer corresponding to a region excluding a channel region in the polycrystalline silicon layer; and annealing the substrate to getter the crystallization-inducing metal existing in the channel region of the polycrystalline silicon layer to the region in the polycrystalline silicon layer having the metal layer pattern or metal silicide layer pattern. Accordingly, the crystallization-inducing metal existing in the channel region of the polycrystalline silicon layer can be effectively removed, and thus a thin film transistor having an improved leakage current characteristic and an OLED display device including the same can be fabricated.12-04-2008
20080210928Semiconductor Device - The present invention provides a semiconductor device which has a storage element having a simple structure in which an organic compound layer is sandwiched between a pair of conductive layers and a manufacturing method of such a semiconductor device. With this characteristic, a semiconductor device having a storage circuit which is nonvolatile, additionally recordable, and easily manufactured and a manufacturing method of such a semiconductor device are provided. A semiconductor device according to the present invention has a plurality of field-effect transistors provided over an insulating layer and a plurality of storage elements provided over the plurality of field-effect transistors. Each of the plurality of field-effect transistors uses a single-crystal semiconductor layer as a channel portion and each of the plurality of storage elements is an element in which a first conductive layer, an organic compound layer, and a second conductive layer are stacked in order.09-04-2008
20100289015ORGANIC FIELD-EFFECT TRANSISTOR - An organic field-effect transistor includes: source and drain electrodes; a semiconductor layer made of an organic semiconductor material placed at least between said source and drain electrodes; a gate electrode suitable for creating an electric field that increases the density of mobile charge carriers in the semiconductor layer in order to create a conduction channel in this semiconductor layer between the source and drain electrodes when a voltage V11-18-2010
20100289009CATHODE COATING - Embodiments of electroluminescent devices of the invention are preferably formed of a transparent anode; a layer of a hole transporting material; a layer of an electroluminescent material; a layer of an electron transporting material; a layer of lithium quinolate or of a substituted lithium quinolate e.g. of thickness less than 7 nm; and a metal cathode. The layer of the metal quinolate is preferably about 0.3-0.5 nm in thickness. In an embodiment there is provided an organic light-emitting diode having a cathode, an electron injection layer in contact with the cathode and an electron transport layer in contact with the electron injection layer and comprising aluminium, zirconium or hafnium quinolate or a mixture thereof or a mixture of any of them with a quinolate of a metal of group 1, 2, 3, 13 or 14 of the periodic table, wherein the electron injection layer comprises lithium quinolate or a substituted lithium quinolate having one or more substituents selected from C11-18-2010
20120292609COMPOUND HAVING TRIPHENYLAMINE STRUCTURE, AND ORGANIC ELECTROLUMINESCENT DEVICE - There is provided an organic compound of excellent characteristics that exhibits excellent hole-injecting/transporting performance and has an electron blocking ability and a highly stable thin-film state with excellent heat resistance. The compound of the present invention is an arylamine compound having a triphenylamine structure. The arylamine compound is used as a constituent material of at least one organic layer in an organic electroluminescent device that includes a pair of electrodes, and one or more organic layers sandwiched between the pair of electrodes.11-22-2012
20130119355STYRYL-BASED COMPOUND, COMPOSITION CONTAINING STYRYL-BASED COMPOUND, AND ORGANIC LIGHT EMITTING DIODE INCLUDING STYRYL-BASED COMPOUND - A styryl-based compound represented by Formula 1, a composition containing the styryl-based compound, and an organic light-emitting diode (OLED) including the styryl-based compound:05-16-2013
20130119356OPAL GLASSES FOR LIGHT EXTRACTION - Opal glass compositions and devices incorporating opal glass compositions are described herein. The compositions solve problems associated with the use of opal glasses as light-scattering layers in electroluminescent devices, such as organic light-emitting diodes. In particular, embodiments solve the problem of high light absorption within the opal glass layer as well as the problem of an insufficiently high refractive index that results in poor light collection by the layer. Particular devices comprise light-emitting diodes incorporating light scattering layers formed of high-index opal glasses of high light scattering power that exhibit minimal light attenuation through light absorption within the matrix phases of the glasses.05-16-2013
20130119357White Organic Light Emitting Device and Display Device Using the Same - A white organic light emitting device, with improved color shift characteristics and improved efficiency according to viewing angle changes by controlling conditions for designing an optical path in organic material layers between a cathode and an anode or adjusting interior or exterior thicknesses of the organic material layers, has a structure including a first electrode and layers between the first electrode and a second electrode satisfies an optical path condition represented by the following equation05-16-2013
20130119361PHENYL AND FLUORENYL SUBSTITUTED PHENYL-PYRAZOLE COMPLEXES OF Ir - The invention provides emissive materials and organic light emitting devices using the emissive materials in an emissive layer disposed between and electrically connected to an anode and a cathode. The emissive materials include compounds with the following structure:05-16-2013
20130119362ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode (OLED) display. The OLED display includes a first substrate member, a first conductive wire having a contact region and formed over the first substrate member, an insulating layer including a plurality of wire contact holes exposing a part of the contact region of the first conductive wire and formed over the first conductive wire, a second conductive wire formed over the first conductive wire and connected to the first conductive wire through the plurality of wire contact holes of the insulating layer, a sealant formed over the second conductive wire, a sealing member formed over the sealant, and a fill-up layer disposed above or under the contact region of the first conductive wire.05-16-2013
20130119363FLUORINE-CONTAINING AROMATIC COMPOUND, ORGANIC SEMICONDUCTOR MATERIAL AND ORGANIC THIN FILM DEVICE - A fluorine-containing aromatic compound represented by a formula: Q(W—Ar05-16-2013
20130119365COMPOSITE MATERIAL, LIGHT EMITTING ELEMENT AND LIGHT EMITTING DEVICE - An object of the present invention is to provide a composite material formed of an organic compound and an inorganic compound, and has an excellent carrier transporting property, an excellent carrier injecting property to the organic compound, as well as excellent transparency. A composite material of the present invention for achieving the above object is a composite material of an organic compound represented in the general formula below, and an inorganic compound. For the inorganic compound, an oxide of a transition metal, preferably an oxide of a metal belonging to groups 4 to 8 of the periodic table, in particular vanadium oxide, tantalum oxide, molybdenum oxide, tungsten oxide, rhenium oxide, and ruthenium oxide, can be used.05-16-2013
20130119366ORGANIC EL ELEMENT, DISPLAY DEVICE, AND LIGHT-EMITTING DEVICE - The present invention aims to provide organic EL elements operating at low voltage to emit light at high intensity. For this aim, each EL element includes an anode, a cathode, a functional layer disposed between the anode and the cathode and including a light-emitting layer composed of organic material, a hole injection layer disposed between the anode and the functional layer, and a bank defining the light-emitting layer. The hole injection layer contains tungsten oxide and exhibits: by UPS measurement, a UPS spectrum having a protrusion appearing near a Fermi surface and within a region corresponding to a binding energy range lower than the top of a valence band; and by XPS measurement, that the tungsten oxide in the hole injection layer satisfies a condition that a ratio in number density of atoms other than tungsten atoms and oxygen atoms to the tungsten atoms is equal to 0.83 or smaller.05-16-2013
20130119367HIGHLY EFFICIENT CARBAZOLE-BASED COMPOUND, AND ORGANIC ELECTROLUMINESCENCE DEVICE COMPRISING SAME - The present invention relates to a highly efficient carbazole-based compound and to an organic electroluminescence device including the same. According to the present invention, provided are a compound for an organic electroluminescence device and an organic electroluminescence device including the compound, in which a carbazole-based phosphine oxide compound, which is a compound intended for an organic electroluminescence device, is employed to overcome the problems of conventional compounds for organic electroluminescence devices, i.e. those of instable thermal stability and low efficiency, and particularly, the compound of the present invention exhibits superior efficiency in pure-blue phosphorescent devices.05-16-2013
20130119368ORGANIC EL DEVICE - An organic EL device includes a first substrate having electrical conductivity, an organic layer formed on the first substrate, an electrode layer formed on the organic layer, and a second substrate joined to the electrode layer by an adhesive layer. In a region of a peripheral portion of the first substrate, the organic layer is not formed, and a portion of the electrode layer is provided on the first substrate through an insulating layer so as to extend to an outer peripheral side of a region where the organic layer is present. The extended electrode layer is folded back together with the insulating layer to a side opposite to the second substrate, to constitute an electrode taking-out portion.05-16-2013
20130119369LAYERED STRUCTURE, ELECTRONIC DEVICE USING SAME, AROMATIC COMPOUND, AND METHOD FOR MANUFACTURING SAID COMPOUND - The present invention provides: a layered structure having a substrate and a hole injection and/or hole transport layer comprising an aromatic compound having, on a side chain, at least one type of group having a cationic center;05-16-2013
20110266526Triphenylene-Benzofuran/Benzothiophene/Benzoselenophene Compounds With Substituents Joining To Form Fused Rings - Compounds comprising a triphenylene moiety and a benzo- or dibenzo-moiety are provided. In particular, the benzo- or dibenzo-moiety has a fused substituent. These compounds may be used in organic light emitting devices, particularly in combination with yellow, orange and red emitters, to provide devices with improved properties.11-03-2011
20110266535ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - According to an embodiment of the present invention, an organic electroluminescent display device includes transistors formed on a substrate, an insulating layer on the transistors, a lower electrode formed on the insulating layer and coupled to a source or a drain of each of the transistors, a bank layer having openings to expose a part of the lower electrode, a bus electrode formed on the bank layer, an organic light-emitting layer formed to cover the lower electrode, the bank layer, and the bus electrode and patterned to expose at least a part of the bus electrode, and an upper electrode formed on the organic light-emitting layer and configured to come into contact with the exposed bus electrode.11-03-2011
20110266532PHOTO-IRRADIATION OF BASE FORMS OF POLYANILINE WITH PHOTO ACID GENERATORS TO FORM CONDUCTIVE COMPOSITES - A method for forming electrically conductive polyaniline (PANI)-based composites includes mixing a base form of PANI, a photo acid generator (PAG), and when the PAG does not hydrogen bond to the base form of PANI an additive which can form hydrogen bonds with the base form of PANI or PAG, together with at least one solvent to form a mixture. The solvent is removed from the mixture. After the removing, the mixture is photo-irradiated with a wavelength within an absorption band of the PAG for converting the base form of PANI to a salt form of PANI to form a polymer composite that includes the salt form of PANI. The polymer composite has a 25° C. electrical conductivity that is at least 3 orders of magnitude higher than a 25° C. electrical conductivity of the base form of PANI, such as a 25° C. electrical conductivity of ≧0.01 S/cm.11-03-2011
20110266527PYRROLE COMPOUND AND ORGANIC PHOTOELECTRIC DEVICE INCLUDING THE SAME - A pyrrole compound for an organic photoelectric device and an organic photoelectric device including the same, the pyrrole compound being represented by the following General Formula 1:11-03-2011
20080272369Organic electronic device - An organic electronic device. The device includes a first electrode to inject or extract hole, the first electrode including a conductive layer and an n-type organic compound layer disposed on the conductive layer, a second electrode to inject or extract electron, a p-type organic compound layer disposed between the n-type organic compound layer and the second electrode. The p-type organic compound layer forms an NP junction between the n-type organic compound layer and the p-type organic compound layer. The energy difference between a lowest unoccupied molecular orbital (LUMO) energy of the n-type organic compound layer and a Fermi energy of the conductive layer is about 2 eV or less, and the energy difference between the LUMO energy of the n-type organic compound layer and a highest unoccupied molecular orbital (HOMO) energy of the p-type organic compound layer is about 1 eV or less.11-06-2008
20080272368Extended Redistribution Layers Bumped Wafer - A semiconductor device is manufactured by, first, providing a wafer, designated with a saw street guide, and having a bond pad formed on an active surface of the wafer. The wafer is taped with a dicing tape. The wafer is singulated along the saw street guide into a plurality of dies having a plurality of gaps between each of the plurality of dies. The dicing tape is stretched to expand the plurality of gaps to a predetermined distance. An organic material is deposited into each of the plurality of gaps. A top surface of the organic material is substantially coplanar with a top surface of a first die of the plurality of dies. A redistribution layer is patterned over a portion of the organic material. An under bump metallization (UBM) is deposited over the organic material in electrical communication, through the redistribution layer, with the bond pad.11-06-2008
20080272367LIGHT-EMITTING DEVICE HAVING IMPROVED LIGHT OUTPUT - A light-emitting LED device has one or more light-emitting LED elements, including first and second spaced-apart electrodes with one or more light-emitting layers formed there-between, wherein at least one of the electrodes is a transparent electrode. Also included are a first transparent encapsulating layer having a first optical index formed over the transparent electrode opposite the light-emitting layer; a light-scattering layer formed over the first transparent encapsulating layer opposite the transparent electrode; and a second transparent encapsulating layer, having a second optical index lower than the first optical index, formed over the light-scattering layer.11-06-2008
20090189150Organic semiconducting copolymer and organic electronic device including the same - An organic semiconducting copolymer according to example embodiments may be represented by Formula 1 below:07-30-2009
20110006291COMPOUND HAVING SUBSTITUTED PYRIDYL GROUP AND PYRIDOINDOLE RING STRUCTURE LINKED THROUGH PHENYLENE GROUP, AND ORGANIC ELECTROLUMINESCENT DEVICE - Objects of the present invention are to provide an organic compound having excellent properties, which is excellent in electron-injecting/transporting performances, has hole-blocking ability and is highly stable in a thin-film state, as a material for an organic electroluminescent device having a high efficiency and a high durability; and to provide an organic electroluminescent device having a high efficiency and a high durability using the compound. The invention relates to a compound having a substituted pyridyl group and a pyridoindole ring structure linked through a phenylene group, which is represented by the general formula (1); and an organic EL device comprising a pair of electrodes and at least one organic layer interposed between the electrodes, wherein the at least one organic layer contains the compound:01-13-2011
20110006288ORGANIC LUMINESCENT DEVICE AND MANUFACTURING METHOD THEREOF - There is provided a polymer or low-molecular-weight compound multilayer type organic EL device configured such that a light-emitting layer formed on a hole transport layer includes a mixture of a polymer material and a low-molecular weight material. With such a configuration, the low-molecular-weight material added to the polymer material serves as a binder filling the gap of the steric hindrance to form entanglement of the polymer material and the low-molecular-weight material. This results in that the interface between the hole transport layer and the light-emitting layer is an interface high in adhesion and also high in carrier injectability. Further, optimization of the formation conditions and materials can achieve still higher reliability and longer lifetime.01-13-2011
20110006287POLYMERS WITH TUNABLE BAND GAPS FOR PHOTONIC AND ELECTRONIC APPLICATIONS - A copolymer comprising at least one donor monomer and at least one acceptor monomer is described. The polymer may optionally further comprise, consist or consist essentially of at least one additional comonomer. Various donor monomers, acceptor monomers and additional comonomers are also described. The polymer is useful in the manufacture of microelectronic devices such as optoelectronic devices.01-13-2011
20090152538THIAZOLE-BASED SEMICONDUCTOR COMPOUND AND ORGANIC THIN FILM TRANSISTOR USING THE SAME - Provided are an organic semiconductor compound using thiazole, and an organic thin film transistor having an organic semiconductor layer formed of the organic semiconductor compound using thiazole. The novel organic semiconductor compound including thiazole has liquid crystallinity and excellent thermal stability, and thus is provided to form an organic semiconductor layer in the organic thin film transistor. To this end, a silicon oxide layer is formed on a silicon substrate, and an organic semiconductor layer including thiazole is formed on the silicon oxide layer. In addition, source and drain electrodes are formed on both edge portions of the organic semiconductor layer. The organic thin film transistor using the organic semiconductor layer has an improved on/off ratio and excellent thermal stability. Also, a solution process can be applied in its manufacture.06-18-2009
20080251786ORGANIC LIGHT EMITTING ELEMENT AND ORGANIC LIGHT EMITTING DEVICE - An organic light emitting element according to an exemplary embodiment includes: a first electrode; a hole injection layer contacting the first electrode; a first emission layer comprising at least two sublayers emitting different color lights and contacting the hole injection layer; a first impurity layer of a first conductive type contacting the first emission layer; a second impurity layer of a second conductive type contacting the first impurity layer; a second emission layer comprising at least two sublayers emitting different color lights and contacting the second impurity layer; a electron injection layer contacting the second emission layer; and a second electrode contacting the electron injection layer.10-16-2008
20110204351NOVEL DIKETOPYRROLOPYRROLE POLYMERS - The present invention relates to polymers comprising a repeating unit of the formula (I)08-25-2011
20110204339ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a first plurality of pixels having an emission color that is blue; a second plurality of pixels having an emission color that is green, the second plurality of pixels being laterally spaced from the first plurality of pixels; and a third plurality of pixels having an emission color that is red-orange, the third plurality of pixels being laterally spaced from the first and second pluralities of pixels. The additive mixing of all the emitted colors results in an overall emission of white light.08-25-2011
20110204338ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a first plurality of pixels having an emission color that is blue; a second plurality of pixels having an emission color that is green, the second plurality of pixels being laterally spaced from the first plurality of pixels; and a third plurality of pixels having an emission color that is orange, the third plurality of pixels being laterally spaced from the first and second pluralities of pixels. The additive mixing of all the emitted colors results in an overall emission of white light.08-25-2011
20110204336ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a first plurality of pixels having an emission color that is blue and a second plurality of pixels having an emission color that is red-orange, the second plurality of pixels being laterally spaced from the first plurality of pixels. The additive mixing of the emitted colors results in an overall emission of white light.08-25-2011
20110204333PHOSPHORESCENT EMITTERS - Compounds including a ligand with a dibenzo-fused 5-membered ring substituent are provided. In particular, the compounds may be iridium complexes including imidazole coordinated to the dibenzo-substituted ligand. The dibenzo-fused 5-membered ring moiety of the ligand may be twisted or minimally twisted out of plane with respect to the rest of the ligand structure. The compound may be used in organic light emitting devices, particularly as emitting dopants in blue devices. Devices comprising the compounds may demonstrate improved stability while maintaining excellent color.08-25-2011
20080258137Thin Film Field Effect Transistors Having Schottky Gate-Channel Junctions - An active electronic device has drain and source electrodes that make ohmic conduct with a layer of a semiconductor. The semiconductor layer may be a thin layer of an organic or amorphous semiconductor. The drain and source electrodes are on a first face of the layer of semiconductor at locations that are spaced apart on either side of a channel. The device has a gate electrode on a second face of the layer of semiconductor adjacent to the channel. The gate electrode makes a Schottky contact with the semiconductor to produce a depletion region in the channel. The gate electrode may encapsulate the channel so that the channel is protected from contact with oxygen, water molecules or other materials in the environment. In some embodiments, the device has an additional gate electrode separated from the semiconductor layer by an insulating layer. Such embodiments combine features of OFETs and MESFETs.10-23-2008
20130181209VAPOR DEPOSITION METHOD, VAPOR DEPOSITION DEVICE AND ORGANIC EL DISPLAY DEVICE - A coating film (07-18-2013
20130181208SEMICONDUCTOR VOLTAGE TRANSFORMATION STRUCTURE - A semiconductor voltage transformation structure is provided. The semiconductor voltage transformation structure includes: a first electrode layer; an electricity-to-light conversion layer formed on the first electrode layer; a second electrode layer formed on the electricity-to-light conversion layer; a first isolation layer formed on the second electrode layer; a third electrode layer formed on the first isolation layer; a light-to-electricity conversion layer formed on the third electrode layer; and a fourth electrode layer formed on the light-to-electricity conversion layer, in which the first isolation layer, the second electrode layer and the third electrode layer are transparent to a working light emitted by the electricity-to-light conversion layer.07-18-2013
20130181204Image Display Device And The Method For Manufacturing The Same - An image display device includes a resin film, an organic film which is formed above the resin film, a circuit layer which is formed above the organic film and includes at least a thin film transistor, and a barrier layer which is formed between the organic film and the circuit layer. The organic film has a first surface which faces the circuit layer and a side surface which crosses the first surface. The barrier layer covers the first surface and the side surface.07-18-2013
20090152540SEMICONDUCTOR DEVICE AND PROCESS FOR PRODUCING SAME - A semiconductor device and process for producing same are provided. The process for producing a semiconductor device includes a first embossing step of pressing a stamp having a relief pattern onto a surface of a substrate to form a depression pattern on the surface of the substrate; a second step of feeding an application material composed of a semiconductor material or a conductive material into the depression pattern by printing; and a third step of curing the application material fed by printing.06-18-2009
20090152539Semiconductor Apparatus and Fabrication Method of the Same - It is an object of the present invention to provide a semiconductor device capable of preventing deterioration due to penetration of moisture or oxygen, for example, a light-emitting apparatus having an organic light-emitting device that is formed over a plastic substrate, and a liquid crystal display apparatus using a plastic substrate. According to the present invention, devices formed on a glass substrate or a quartz substrate (a TFT, a light-emitting device having an organic compound, a liquid crystal device, a memory device, a thin-film diode, a pin-junction silicon photoelectric converter, a silicon resistance element, or the like) are separated from the substrate, and transferred to a plastic substrate having high thermal conductivity.06-18-2009
20090152536DNA-BASED ELECTRONIC DIODES AND THEIR APPLICATIONS - A semiconductor device provides a metal contact, a DNA layer, wherein the metal layer and the DNA layer are adapted to form a Schottky barrier junction there between, and a conductive contact with the DNA layer.06-18-2009
20090152534Producing Layered Structures With Lamination - A layered structure can include laminated first and second substructures and an array with cell regions. The first substructure can include layered active circuitry, the second a top electrode layer. One or both substructure's surface that contacts the other can be on a polymer-containing layer, structured to generate free charge carriers and/or to transport charge carriers. A cell region of the array can include portions of each substructure; the cell region's portion of the first substructure can include a subregion of electrically conductive material and a subregion of semiconductive material, its portion of the second can include part of the top electrode layer. The layered structure can include one or more lamination artifacts on or in the polymer-containing layer; the lamination artifacts can include artifacts of contact pressure, or heat, or of surface shape, and the interface surface can be without vias.06-18-2009
20090152533INCREASING THE EXTERNAL EFFICIENCY OF LIGHT EMITTING DIODES - The present disclosure relates to increasing the external efficiency of light emitting diodes, and specifically to increasing the outcoupling of light from an organic light emitting diode utilizing a diffraction grating.06-18-2009
20100140592Composition Comprising An Indium-Containing Intrinsically Conductive Polymer - The invention relates to a composition which comprises an intrinsically conductive polymer and indium and which is particularly suitable for producing puncture injection layers in light emitting diodes. Methods for producing and using the inventive composition and electronic devices for the production thereof are also disclosed.06-10-2010
20100140599SEMICONDUCTOR DEVICE, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, AND DISPLAY - A semiconductor device includes an organic semiconductor layer 06-10-2010
20100140597Organic thin film transistors comprising thienyl oligomers and their use as gaseous phase sensors - This invention pertains to gaseous analytes sensor devices comprising organic thin film transistor and, in particular sensors able to perform the enantiomeric discrimination of gaseous analytes. The organic thin films are characterized by comprising a compound of formula (I).06-10-2010
20080303019Side Chain-Containing Type Organic Silane Compound, Thin Film Transistor and Method of Producing Thereof - A side chain-containing type organic silane compound represented by the formula (I) R—SiX12-11-2008
20090179195Organic Luminescence Transistor Device and Manufacturing Method Thereof - The invention is an organic luminescence transistor device including: a substrate; an assistance electrode layer provided on a side of an upper surface of the substrate; an insulation film provided on a side of an upper surface of the assistance electrode layer; a first electrode provided locally on a side of an upper surface of the insulation film, the first electrode covering an area of a predetermined size; an electric-charge-injection inhibiting layer provided on an upper surface of the first electrode, the electric-charge-injection inhibiting layer having a shape larger than that of the first electrode in a plan view; an electric-charge injection layer provided on the side of an upper surface of the insulation film at an area not provided with the first electrode or the electric-charge-injection inhibiting layer and on an upper surface of the electric-charge-injection inhibiting layer; a luminescent layer provided on an upper surface of the electric-charge injection layer; and a second electrode layer provided on a side of an upper surface of the luminescent layer.07-16-2009
20090179197DEVICE - A device is provided by use of a helical substituted polyacetylene. The device comprises a structure comprised of a helical substituted polyacetylene having a helical main chain, and a pair of electrodes for applying a voltage or electric current to the structure, wherein the molecule of the helical substituted polyacetylene has a length larger than the distance between the pair of the electrodes.07-16-2009
20110266525ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a first electrode, a second electrode, and an electroluminescent layer therebetween. The electroluminescent layer includes: 11-03-2011
20110266528SUBSTITUTED CARBAZOLE DERIVATIVES AND USE THEREOF IN ORGANIC ELECTRONICS - An organic light-emitting diode, organic solar cell or switching element comprising at least one substituted carbazole derivative of the general formula (I), (II) or (III)11-03-2011
20090184313MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention relates to organic electroluminescent devices, in particular blue-emitting devices, in which compounds of the formulae (1) to (4) are used as host material or dopant in the emitting layer and/or as hole-transport material and/or as electron-transport material.07-23-2009
20090127546ORGANIC LIGHT EMITTING DIODE AND METHOD FOR THE PRODUCTION THEREOF - The invention relates to organic light emitting diodes (OLEDs) and to a method for the production thereof. The organic light emitting diodes according to the invention are distinguished in that a substance is integrated in the layer stack, the electrical conductivity of which is reduced by energy input, as a result of which irreversible damage to organic light emitting diodes, as can occur for example with the formation of defects or particles, can be prevented.05-21-2009
20090127545ORGANIC LIGHT EMITTING DEVICE AND METHOD OF FABRICATING THE SAME - An organic light emitting device and a method for fabricating the same are discussed. According to an embodiment, the method includes forming a mother substrate structure including organic light emitting devices including TFTs and first electrodes, each first electrode electrically connected to the corresponding TFT and being a part of an OLED to be formed; forming first and second conductive layers to form a power line in each organic light emitting device; forming a dummy layer on the first electrodes and the second conductive layer; performing at least one of scribing and grinding processes on the mother substrate structure to divide the mother substrate structure into sub-substrate structures; removing the dummy layer from the first electrodes and the second conductive layer after the performing step; and forming a light emitting layer and a second electrode on the first electrode in one of the sub-substrate structures to form the OLED.05-21-2009
20100140606ORGANIC ELECTROLUMINESCENCE DEVICE AND LUMINESCENCE APPARATUS - The invention provides an organic EL device including a pair of electrodes and at least one luminescent layer located between the pair of electrodes, the luminescent layer including a blue phosphorescent material having a luminescence peak in a range of from 420 nm to less than 500 nm, a green phosphorescent material having a luminescence peak in a range of from 500 nm to less than 570 nm, a red phosphorescent material having a luminescence peak in a range of from 570 nm to 650 nm, and a charge-transporting material, the charge-transporting material having a lowest excited triplet energy level (T06-10-2010
20110220880m-TERPHENYL COMPOUND DERIVATIVES AND APPLICATION FOR ORGANIC LIGHT EMITTING DIODE - An m-terphenyl derivative has a structure of formula (I) or (II):09-15-2011
20090166612Techniques for Device Fabrication with Self-Aligned Electrodes - This invention relates to the fabrication of electronic devices, such as thin-film transistors, in particular thin-film transistors in which patterning techniques are used for definition of electrode patterns that need to be accurately aligned with respect to underlying electrodes. The fabrication technique is applicable to various patterning techniques, such as laser ablation patterning or solution-based, direct-write printing techniques which are not capable of forming structures with a small linewidth, and/or that cannot be positioned very accurately with respect to previously deposited patterns. We thus describe self-aligned gate techniques which are applicable for both gate patterning by a subtractive technique, in particular selective laser ablation patterning, and gate patterning by an additive technique such as printing. The techniques facilitate the use of low-resolution gate patterning.07-02-2009
20100187508ANTHRACENE COMPOUNDS FOR LUMINESCENT APPLICATIONS - This invention relates to anthracene derivatives that are useful in electroluminescent applications. It also relates to electronic devices in which the active layer includes such an anthracene derivative.07-29-2010
20090121217NITRIDE COMPOUND SEMICONDUCTOR DEVICE INCLUDING ORGANIC SEMICONDUCTOR LAYER UNDER GATE ELECTRODE - A nitride compound semiconductor device includes a semiconductor layer including a group III nitride compound semiconductor, source and drain electrodes provided on the semiconductor layer, an insulating film provided on the semiconductor layer between the source electrode and the drain electrode, an organic semiconductor layer in contact with the semiconductor layer at an opening provided for the insulating film, and a gate electrode provided on the organic conductive layer at the opening.05-14-2009
20100270545LIGHT-EMITTING DEVICE USING VOLTAGE SWITCHABLE DIELECTRIC MATERIAL - A voltage switchable dielectric material (VSD) material as part of a light-emitting component, including LEDs and OLEDs.10-28-2010
20090140237THIN FILM TRANSISTORS - A thin film transistor has a semiconducting layer comprising a semiconductor and a mixture enriched in metallic carbon nanotubes. The semiconducting layer has improved charge carrier mobility.06-04-2009
20120138911BISCARBAZOLE DERIVATIVE, MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A biscarbazole derivative of the invention is represented by a formula (1A) or (1B) below.06-07-2012
20120138908METHODS OF PREPARING A LI FILM AND METHODS OF PREPARING AN ORGANIC LIGHT EMITTING DEVICE - The present invention relates to a method of preparing a Li film, wherein said Li film is fabricated by directly decomposing a compound of Li under a vacuum evaporation condition, and said compound is Li06-07-2012
20090140238FLAT SCREEN DETECTOR - A flat screen detector has a substrate with a transistor matrix thereon, a photodetector, and a passivation layer. The photodetector includes a structured first electrode including a number of sub-electrodes, a second electrode, and a photoactive layer between the first and second electrodes. The passivation layer is located between the substrate having the transistor matrix and the first electrode.06-04-2009
20090140235Semiconductor element and process for producing the same - The present invention provides a thin film transistor having excellent formability and processability, and particularly a thin film transistor using plastics as a substrate; an organic semiconductor as an active layer; and SiO06-04-2009
20100200847ORGANIC COMPOUND, ANTHRACENE DERIVATIVE, AND LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, AND ELECTRONIC DEVICE USING ANTHRACENE DERIVATIVE - Objects of the present invention are to provide novel anthracene derivatives and novel organic compounds; a light-emitting element that has high emission efficiency; a light-emitting element that is capable of emitting blue light with high luminous efficiency; a light-emitting element that is capable of operation for a long time; and a light-emitting device and an electronic device that have lower power consumption. An anthracene derivative represented by a general formula (1) and an organic compound represented by a general formula (17) are provided. A light-emitting element that has high emission efficiency can be obtained by use of the anthracene derivative represented by the general formula (1). Further, a light-emitting element that has a long life can be obtained by use of the anthracene derivative represented by the general formula (1).08-12-2010
20100200846ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display includes a substrate having organic light emitting diodes thereon. A thin film encapsulation layer is formed on the substrate such that the thin film encapsulation layer covers the organic light emitting diodes. A nonorganic layer is formed under the thin film encapsulation layer along the edge of the thin film encapsulation layer.08-12-2010
20100200845ORGANIC LIGHT EMITTING DIODE DISPLAY - Embodiments provide an organic light emitting diode display. The display includes a substrate, a pixel electrode formed on the substrate, and an organic emissive layer formed on the pixel electrode. A common electrode is formed on the organic emissive layer. In addition, a crystallized light scattering layer is formed on the common electrode. The crystallized light scattering layer may be a crystallized organic or crystallized inorganic layer having a rough surface in order to effectively scatter light and prevent phenomenon, such as Newton's Rings from occurring in the display.08-12-2010
20100200844ORGANIC THIN FILM TRANSISTOR AND FABRICATING METHOD THEREOF - An organic thin film transistor including a gate, a gate insulator covering the gate, a source, a drain, an organic semiconductor layer, a hydrophobic layer and a protecting droplet is provided. A hydrophobic region is formed by forming the hydrophobic layer on a surface of the source and a surface of the drain, respectively. Meanwhile, a hydrophilic region is formed on the organic semiconductor layer exposed by the hydrophobic layer. The protecting droplet is self-assemblingly formed on the organic semiconductor layer to protect the device characteristic by using the surface tension thereof. Therefore, an organic thin film transistor having a simple fabricating process is provided. Besides, a fabricating method of an organic thin film transistor is also provided.08-12-2010
20100200843THIN FILM TRANSISTOR AND DISPLAY UNIT - A thin film transistor with which oxygen is easily supplied to an oxide semiconductor layer and favorable transistor characteristics are able to be restored and a display unit including the same are provided. The thin film transistor includes sequentially over a substrate a gate electrode, a gate insulting film, an oxide semiconductor layer including a channel region, and a channel protective layer covering the channel region A source electrode and a drain electrode are formed on the oxide semiconductor layer located on both sides of the channel protective layer, and at least one of the source electrode and the drain electrode has an aperture to expose the oxide semiconductor layer.08-12-2010
20100200842Surface modifying agent, laminated structure and transistor including the same, and method of manufacturing the laminated structure - Disclosed is a surface modifying agent including a compound having an ethynyl group at one terminal end, a laminated structure manufactured using the surface modifying agent, a method of manufacturing the laminated structure, and a transistor including the same.08-12-2010
20100200841LIQUID COMPOSITIONS FOR INKJET PRINTING OF ORGANIC LAYERS OR OTHER USES - A method of forming an organic layer by using a liquid composition comprising a small molecule organic semiconductor material mixed in a ketone solvent. The liquid composition is deposited on a surface to form the organic layer. The ketone solvent may be an aromatic ketone solvent, such as a tetralone solvent. The organic semiconductor material may be cross-linkable to provide a cross-linked organic layer. The method can be used to make organic electronic devices, such as organic light emitting devices. In another aspect, the liquid composition comprises a small molecule organic semiconductor material mixed in an aromatic ether solvent. Also, provided are liquid compositions which can be used to make organic layers.08-12-2010
20100051918ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM LIGHT-EMITTING TRANSISTOR - An organic thin film transistor including a substrate having thereon at least three terminals of a gate electrode, a source electrode and a drain electrode, an insulator layer and an organic semiconductor layer, with a current between a source and a drain being controlled upon application of a voltage to the gate electrode, wherein the organic semiconductor layer includes a specified organic compound having an acetylene or olefin structure in the center thereof; and an organic thin film light emitting transistor utilizing an organic thin film transistor, wherein the organic thin film transistor is one in which light emission is obtained utilizing a current flowing between the source and the drain, and the light emission is controlled upon application of a voltage to the gate electrode, and is made high with respect to the response speed and has a large ON/OFF ratio, are provided.03-04-2010
20090020750ACTIVE SEMICONDUCTOR DEVICES - Apparatus including a support body; an organic semiconductor composition body on the support body, —and a first body including a hydrogenated vinylaromatic-diene block copolymer on the organic semiconductor composition body. Apparatus including a support body, —a first body including a hydrogenated vinylaromatic-diene block copolymer on the support body; and an organic semiconductor composition body on the first body. Techniques for making an apparatus.01-22-2009
20110031477ORGANIC LIGHT-EMITTING DIODES COMPRISING AT LEAST ONE DISILYL COMPOUND SELECTED FROM DISILYLCARBAZOLES, DISILYLDIBENZOFURANS, DISILYLDIBENZOTHIOPHENES, DISILYLDIBENZOPHOLES, DISILYLDIBENZOTHIOPHENE S-OXIDES AND DISILYLDIBENZOTHIOPHENE S,S-DIOXIDES - The present invention relates to an organic light-emitting diode comprising an anode An and a cathode Ka and a light-emitting layer E and if appropriate at least one further layer, where the light-emitting layer E and/or the at least one further layer comprises at least one compound selected from disilylcarbazoles, disilyldibenzofurans, disilyldibenzothiophenes, disilyldibenzophospholes, disilyldibenzothiophene S-oxides and disilyldibenzothiophene S,S-dioxides, to a light-emitting layer comprising at least one of the aforementioned compounds, to the use of the aforementioned compounds as matrix material, hole/exciton blocker material, electron/exciton blocker material, hole injection material, electron injection material, hole conductor material and/or electron conductor material, and to a device selected from the group consisting of stationary visual display units, mobile visual display units and illumination units comprising at least one inventive organic light-emitting diode.02-10-2011
20120068171ORGANIC ELECTROLUMINESCENT ELEMENT - In an organic electroluminescent element, light extraction efficiency is enhanced. An organic electroluminescent element 03-22-2012
20120068169ORGANIC EL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An organic EL display device (03-22-2012
20120068167SURFACE TREATMENT METHOD FOR ELECTRODES, ELECTRODE, AND PROCESS FOR PRODUCING ORGANIC ELECTROLUMINESCENT ELEMENT - [Problem] To provide a method for increasing a work function of an electrode by a simple operation and an organic EL element which has an anode of a high work function, exhibits excellent light emission properties (luminous efficiency, lifetime), has a good luminescent surface with small unevenness of luminance and few defects and has low leakage current.03-22-2012
20120068166AROMATIC CHALCOGEN COMPOUNDS AND THEIR USE - This invention relates to dibenzothiopyran compounds. This invention also relates to layers and devices including at least one of these compounds.03-22-2012
20120068165ORGANIC ELECTROLUMINESCENCE ELEMENT - An organic electroluminescence element including: an anode, a cathode, and at least one organic layer which includes a light emitting layer, and which is provided between the anode and the cathode, wherein at least one layer in the organic layer contains at least one selected from nitrogen-containing heterocyclic derivatives each represented by the following General Formula (1) and used as at least one of an electron injecting material and an electron transporting material, and at least one layer in the organic layer contains at least one selected from phosphorescence emitting materials having structures expressed by the following Structural Formulae (I-1) to (I-4), (I-7) to (I-12), (I-14) and (I-16) to (I-26):03-22-2012
20120068164MATERIAL FOR ORGANIC ELECTROLUMINESCENT ELEMENT AND ORGANIC ELECTROLUMINESCENT ELEMENT EMPLOYING THE SAME - A material for organic electroluminescence devices for use as a host material in combination with at least one phosphorescent metal complex, which comprises a compound having a specific heterocyclic structure, is described. Also described is an organic electroluminescence device having an anode, a cathode and an organic thin film layer having one or more layers. The organic thin film layer is interposed between the anode and cathode and has a light emitting layer containing a host material in combination with at least one phosphorescent metal complex. At least one layer of the organic thin film layer contains the material for organic electroluminescence devices. The material for organic electroluminescence devices provides an organic electroluminescence device which has a high emitting efficiency, causes little pixel defects, is excellent in heat resistance, and show a long lifetime.03-22-2012
20120068162PERMEATION BARRIER FOR ENCAPSULATION OF DEVICES AND SUBSTRATES - A permeation barrier film structure for organic electronic devices includes one or more bilayers having a hybrid permeation barrier composition. Each of the one or more bilayers includes a first region having a first composition corresponding to a first CF03-22-2012
20090050881PHOTOELECTRIC CONVERSION ELEMENT, METHOD FOR PRODUCING PHOTOELECTRIC CONVERSION ELEMENT, AND SOLID-STATE IMAGING DEVICE - A photoelectric conversion element is provided and includes a photoelectric conversion portion. The photoelectric conversion portion includes: a pair of electrodes; and a photoelectric conversion layer between the pair of electrodes, and at least part of the photoelectric conversion layer includes a mixed layer of a p-type organic semiconductor and a fullerene, and a mixing ratio of the fullerene to the p-type organic semiconductor in terms of thickness ratio is less than 1:1.02-26-2009
20090206329ORGANIC THIN FILM TRANSISTOR - To provide an organic thin film transistor including a pair of electrodes for allowing a current to flow through an organic semiconductor layer made of an organic semiconductor material, and a third electrode, wherein the organic semiconductor material is composed mainly of an arylamine polymer having a weight-average molecular weight (Mw) of 20,000 or more.08-20-2009
20090026447Light emitting device - An organic EL display device having a long lifetime is provided. The light emitting device includes at least one organic compound layer between a pair of electrodes, and the content of an impurity generated from an organic compound in the at least one organic compound layer is 10 ng/cm01-29-2009
20080315186Organic Semiconductor Device and Organic Semiconductor Thin Film - An organic semiconductor device includes a channel forming region including an organic semiconductor thin film which is composed of an organic semiconductor material having an oxidation or reduction mechanism in units of two-π-electrons and a two- or three-dimensional conduction path. It is thus possible to provide an organic semiconductor device including an organic semiconductor thin film based on an organic semiconductor thin film composed of an organic semiconductor material which can be dissolved in an organic solvent at a low temperature (e.g., room temperature) and is suitable for use in a coating process.12-25-2008
20090026446Organic light emitting device and manufacturing method thereof - An organic light emitting device according to an embodiment includes a thin film transistor substrate including a plurality of thin film transistors and an over-coating film formed on the thin film transistors. The over-coating film includes a curved surface on at least two pixels among pixels of different colors and the slope angles of depressed portions forming the curved surface are respectively different from each other depending on the colors of the pixels. A plurality of first electrodes formed on the over-coating film includes a surface formed according to the curved surface, an organic light emitting member formed on the first electrodes includes a surface formed according to the curved surface, and a second electrode formed on the organic light emitting member includes a surface formed according to the curved surface. Slope angles of the depressed portions increase according to a decrease of wavelengths of the colors of the pixels.01-29-2009
20110220886ORGANIC ELECTROLUMINESCENCE MATERIAL COMPOSITION, THIN FILM FORMATION METHOD, AND ORGANIC ELECTROLUMINESCENCE ELEMENT - An organic electroluminescence material composition including a solvent represented by the following formula (1) and an anthracene derivative: 09-15-2011
20110220884COMPOUND FOR ORGANIC THIN-FILM TRANSISTOR AND ORGANIC THIN-FILM TRANSISTOR USING SAME - A compound for an organic thin film transistor having a structure represented by the following formula (1):09-15-2011
20110220883COMPOUND FOR ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM TRANSISTOR USING THE SAME - A compound for an organic thin film transistor having a structure of the following formula (1):09-15-2011
20110220878Thin film transistor and method of manufacturing the same - A thin film transistor (TFT) includes a substrate, and an active region on the substrate including source and drain regions at opposing ends of the active region, a lightly doped region adjacent to at least one of the source region and the drain region, a plurality of channel regions, and a highly doped region between two channel regions of the plurality of channel regions. The TFT includes a gate insulation layer on the active region, and a multiple gate electrode having a plurality of gate electrodes on the gate insulation layer, the plurality of channel regions being disposed below corresponding gate electrodes, and the source region and the drain region being disposed adjacent to outermost portions of the multiple gate electrode. The TFT includes a first interlayer insulation layer on the multiple gate electrode, and source and drain electrodes extending through the first interlayer insulation layer and contacting the respective source and drain regions.09-15-2011
20110220879Organic light emitting display - An organic light emitting display (OLED) including a thin film transistor (TFT) including a gate electrode, an active layer, and source and drain electrodes, the active layer being insulated from the gate electrode and including an oxide semiconductor and the source and drain electrodes being insulated from the gate electrode and contacting the active layer; a first insulation layer covering the TFT; a second insulation layer on the first insulation layer, the second insulation layer being formed of amorphous silicon without doping; a pixel electrode on the second insulation layer; a third insulation layer on the second insulation layer, the third insulation layer covering an edge of the pixel electrode; an organic light emitting layer on the pixel electrode; and a facing electrode on the organic light emitting layer and the third insulation layer.09-15-2011
20110220877ORGANIC ELECTROLUMINESCENCE ELEMENT, METHOD FOR MANUFACTURING THE SAME AND COATING SOLUTION - It is an object of the present invention to provide an organic EL element that can be easily manufactured and has a good light-emitting property and lifetime property, a method for manufacturing the same and materials used for manufacturing the same.09-15-2011
20090050879ORGANIC THIN FILM TRANSISTOR AND ACTIVE MATRIX DISPLAY - An organic thin film transistor is disclosed. The organic thin film transistor includes a substrate, a gate electrode , a gate insulating film , a source electrode on the gate insulating film, a drain electrode on the gate insulating film at an interval with the source electrode, and an organic semiconductor layer. The gate insulating film includes an electrode formation region having surface energy modified by energy deposition, one or more corners of the electrode formation region has an obtuse-angled shape, and the source electrode and/or the drain electrode is formed in the electrode formation region so as to have substantially the same corner shape as the electrode formation region having the obtuse-angled shaped corners.02-26-2009
20090050880Method of Fabricating Thin-Film Transistor - The core metal of a protein such as ferritin is used as a nucleus for crystallizing a silicone thin film and then the thus crystallized film is employed in the channel part of a thin-film transistor. By aligning the protein on the surface of amorphous silicone and heating, the crystallinity is controlled. In the case of ferritin, the core diameter of the protein is 7 mm. That is, this protein is highly even in size (i.e., the metal content). Thus, the amount of the protein to be deposited on the amorphous silicone surface can be accurately controlled by controlling the protein core density. Furthermore, the type of the core metal can be altered by chemical reactions and the above method is applicable not only to amorphous silicone but also to amorphous films of various types such as germanium. Thus, the amount of nickel required in crystallization is controlled by using a protein. Moreover, the distribution density of the nickel core is controlled to thereby conduct crystallization at a desired crystal size.02-26-2009
20090050882Organic thin film transistor - An organic thin film transistor including: a substrate; a gate electrode placed on the substrate; a gate insulating film placed on the gate electrode; a source electrode and a drain electrode which are placed on the gate insulating film; an organic semiconductor layer placed on the gate insulating film between the source electrode and the drain electrode; a hole transport layer placed on the organic semiconductor layer; an electron transport layer placed on the hole transport layer; and a conductor layer placed on the electron transport layer; the organic thin film transistor which characteristics are stable by being protected from oxygen or moisture and being protected electromagnetically and which is suitable for integration.02-26-2009
20090050878MULTIFUNCTION ORGANIC DIODE AND MATRIX PANEL THEREOF - Disclosed is organic diode which is capable of light emitting display by an organic EL display, image sensing by a organic photodiode and power generation by an organic solar cell. Also disclosed is a matrix panel of such a multifunction organic diode. Specifically disclosed is a multifunction organic diode comprising a first electrode (02-26-2009
20090101891Multi-layered bipolar field-effect transistor and method of manufacturing the same - Disclosed herein is a multi-layered bipolar field-effect transistor, including a gate electrode, a gate insulating layer, an electron transport layer, a hole transport layer, a source electrode, and a drain electrode, in which an intermediate separating layer is formed between the electron transport layer and the hole transport layer, and a method of manufacturing the same. The multi-layered bipolar field-effect transistor has advantages in that, since a P-channel and a N-channel are effectively separated, the electrical properties thereof, such as current ON/OFF ratio, electron mobility, hole mobility, and the like, are improved, and, since a device can be manufactured through a solution process without damaging layers, the processability thereof is improved.04-23-2009
20090200543METHOD OF FORMING AN ELECTRONIC DEVICE ON A SUBSTRATE SUPPORTED BY A CARRIER AND RESULTANT DEVICE - A method for forming an electronic device on a flexible substrate conditions the surface of a carrier to form a holding area for retaining the flexible substrate. A contact surface of the flexible substrate is applied against the carrier with an intermediate binding material applied between at least the holding area of the carrier and the corresponding area of the contact surface. Entrapped gas between the flexible substrate and the carrier is removed and the substrate processed to form the electronic device thereon. The substrate can then be removed from the holding area to yield the resultant electronic device.08-13-2009
20100276674Light-emitting Device and Materials Therefor - An organic light-emitting device comprising an anode; a hole transport layer; a light-emitting layer; and a cathode, characterised in that the hole transport layer comprises a polymer having a repeat unit comprising a 9,9 biphenyl fluorene unit wherein the 9-phenyl rings are independently and optionally substituted and the fluorene unit is optionally fused.11-04-2010
20090101892Organic underlayers that improve the performance of organic semiconductors - A process for producing high performance organic thin film transistors in which the molecules in the organic thin film are highly ordered and oriented to maximize the mobility of current charge carriers. The uniform monolayer surface over various substrate materials so formed, result in a more reproducible and readily manufacturable process for higher performance organic field effect transistors that can be used to create large area circuits using a range of materials.04-23-2009
20110220881COMPOUND HAVING TRIPHENYLSILYL GROUP AND TRIARYLAMINE STRUCTURE, AND ORGANIC ELECTROLUMINESCENT DEVICE - The invention provides a light emitting layer host compound and an electron-blocking compound that have high excited triplet levels, and can completely confine the triplet excitons of phosphorescent material, for use as the material of a high-efficient organic electroluminescent device. The invention also provides a high-efficient, high-luminance organic electroluminescent device with the use of the compounds.09-15-2011
20080237581DEVICE WITH PHASE-SEPARATED DIELECTRIC STRUCTURE - An electronic device including in any sequence: (a) a semiconductor layer; and (b) a phase-separated dielectric structure comprising a lower-k dielectric polymer and a higher-k dielectric polymer, wherein the lower-k dielectric polymer is in a higher concentration than the higher-k dielectric polymer in a region of the dielectric structure closest to the semiconductor layer.10-02-2008
20110227053NOVEL CHRYSENE DERIVATIVES AND ORGANIC ELECTRICAL DEVICE USING THE SAME - The present invention relates to a novel chrysene derivative and an organic electronic device using the same. A chrysene according to the present invention may act as a hole injection, hole transport, electron injection and transport, or light emitting material in an organic light emitting device and an organic electronic device, and in particular, may be used alone as a light emitting host or a dopant.09-22-2011
20110227057PERYLENE COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE COMPOUND - Provided is an organic light emitting device having high light emitting efficiency and good emission color purity. The organic light emitting device includes an anode, a cathode, and an organic compound layer which is sandwiched between the anode and the cathode, in which one of the anode and the cathode is transparent or semi-transparent and the organic compound layer contains at least one kind of perylene compound represented by the following general formula (1):09-22-2011
20110227055PROCESS FOR THE PREPARATION OF ORGANIC ELECTRONIC DEVICES - The invention relates to the use of a closed field unbalanced magnetron sputter ion plating process in the preparation of organic electronic devices or components thereof, and to organic electronic devices, or components thereof, obtainable by such a process.09-22-2011
20110227049PHOSPHORESCENT MATERIALS - Novel organic compounds containing a twisted aryl group are provided. In particular, the compounds provided contain a 2-phenylpyridine ligand having a twisted aryl group on the pyridine portion of the ligand. The compounds may be used in organic light emitting devices, particularly as emitting dopants. Devices comprising the compounds containing twisted aryl may demonstrate improved color, efficiency, stability and manufacturing. Additionally, methods are provided for making homoleptic Ir (III) compounds which may contain a twisted aryl.09-22-2011
20110227046OTFT and MIM Capacitor Using Silk Protein as Dielectric Material and Methods for Manufacturing the Same - An organic thin film transistor (OTFT) and a metal-insulator-metal (MIM) capacitor using silk protein as a dielectric material, and methods for manufacturing the same are disclosed. The OTFT of the present invention comprises: a substrate; a gate electrode disposed on the substrate; a gate insulating layer containing silk protein, which is disposed on the substrate and covers the gate electrode; an organic semiconductor layer; and a source electrode and a drain electrode, wherein the organic semiconductor layer, the source electrode and the drain electrode are disposed over the gate insulating layer.09-22-2011
20090140240ORGANIC THIN FILM TRANSISTOR - A thin film transistor comprising at least three terminals consisting of a gate electrode, a source electrode and a drain electrode; an insulator layer and an organic semiconductor layer on a substrate, which controls its electric current flowing between the source and the drain by applying a electric voltage across the gate electrode, wherein the organic semiconductor layer comprises a styryl derivative having a styryl structure expressed by C06-04-2009
20090200544ORGANIC LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic light emitting device includes first, second, and third pixels each displaying a different color. Each pixel includes a first electrode, a second electrode facing the first electrode, and an emission layer between the first and second electrodes. The first electrodes of the first and second pixels respectively include a first transparent conductive layer and a translucent conductive layer disposed on at least one of lower and upper portions of the first transparent conductive layer and forming microcavities together with the second electrodes, and the first electrode of the third pixel includes a second transparent conductive layer that is different from the first transparent conductive layer and a translucent conductive layer disposed on at least one of upper and lower portions of the second transparent conductive layer and forming a microcavity together with the second electrode.08-13-2009
20130214254Cavity Electroluminescent Devices with Integrated Microlenses - Herein is provided electroluminescent devices, and methods for their use and production. In some embodiments, the devices contain embedded optical features that act as lenses to direct photons emitted from an electroluminescent material. The lensing effect from the optical features allows increased light extraction from the devices compared with devices lacking such features. In some embodiments the devices are prepared using a plurality of etching and deposition steps.08-22-2013
20130214256Light Emitting Element and Light Emitting Device - A light emitting element of the invention includes n pieces of light emitting layers (n is a natural number) between first and second electrodes. A first layer and a second layer are provided between the m08-22-2013
20130214265SOLID-STATE IMAGING DEVICE AND IMAGING APPARATUS - A solid-state imaging device includes: plural pixel electrodes two-dimensionally arranged above a substrate; a counter electrode constituted of a transparent electrically conductive oxide having a resistance of not more than 100 kΩ/□, which is formed at an upper layer of the plural pixel electrodes; a light receiving layer including a photoelectric conversion layer containing an organic material, which is formed between the plural pixel electrodes and the counter electrode; and a connecting section for undergoing electrical connection between a voltage supply line for supplying a bias voltage to be impressed to the counter electrode, and in a plan view, a rectangular region in which the plural pixel electrodes are arranged is defined as a pixel region; the pixel region has a size of not more than 5 inches; the connecting section is formed as defined herein; and the counter electrode is formed as defined herein.08-22-2013
20090230388Composition for producing organic insulator comprising an organic-inorganic metal hybrid material - A composition for producing an organic insulator is provided which comprises an organic-inorganic hybrid material (as defined). The hybrid material shows high solubility in organic solvents and monomers, and superior adhesion to substrates. In addition, the hybrid material displays a high dielectric constant and a high degree of crosslinking. Based on these advantages, the composition comprising the organic-inorganic hybrid material can be utilized during the fabrication of various electronic devices by a wet process. A method for producing the organic insulator while utilizing the composition also is provided, as well as the resulting organic insulator, and an organic thin film transistor which incorporates the resulting insulating layer.09-17-2009
20090230387ORGANIC SEMICONDUCTOR MATERIAL, ORGANIC SEMICONDUCTOR THIN FILM AND ORGANIC SEMICONDUCTOR DEVICE - An organic semiconductor material is provided. The organic semiconductor material includes a polyacene derivative expressed by the following general formula (1):09-17-2009
20090230385ORGANIC THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - Disclosed are an organic thin film transistor and a method of manufacturing the same. The organic thin film transistor includes a gate electrode, an insulating layer, an organic semiconductor layer, a protective layer, and source and drain electrodes. The insulating layer is on the gate electrode, and the organic semiconductor layer is on the insulating layer. The protective layer is on the organic semiconductor layer, and includes an electrode pattern part to expose the organic semiconductor layer. The source and drain electrodes are in the electrode pattern part and connected to the organic semiconductor layer.09-17-2009
20090230384Vertical organic light emitting transistor assembly and horizontal organic light emitting transistor assembly - A vertical organic light emitting transistor assembly and-a horizontal organic light emitting transistor assembly are provided. The vertical organic light emitting transistor assembly comprises a first/second vertical transistor and a first/second organic light emitting diode perpendicularly integrated with the first/second vertical transistor, respectively. The horizontal organic light emitting transistor assembly comprises a substrate, a third vertical transistor and a third organic light emitting diode. The third vertical transistor and the third organic light emitting diode are arranged abreast on the substrate. By integrating the organic light emitting diode and the vertical transistor into a unitary electronic element, the vertical transistor can efficiently drive the organic light emitting diode so that the organic light emitting transistor assembly can overcome limitations caused by existing manufacturing processes and adapt to extensive applications.09-17-2009
20080277649Field Effect Transistor and Method of Producing Same - A field effect transistor is provided which comprises an organic semiconductor layer comprising a compound having a monobenzoporphyrin skeleton represented by the general formula (1):11-13-2008
20130181196COMPOUNDS AND ORGANIC ELECTRONIC DEVICE USING THE SAME - The present invention provides a new compound and an organic electronic device using the same. The organic electronic device according to the present invention exhibits excellent properties in views of efficiency, driving voltage and a life span.07-18-2013
20130181195ORGANIC LIGHT EMITTING DEVICE - Provided is an organic light emitting device. The organic light emitting device includes: a first electrode on a substrate, a second electrode on the first electrode, an organic light emitting layer between the first electrode and the second electrode, an embossing layer between the first electrode and the substrate and a planarization layer between the first electrode and the embossing layer.07-18-2013
20120104380CONDUCTING FORMULATION - The present invention relates to novel formulations comprising light emitting materials and/or charge transporting materials and a conductive additive, to their use as conducting inks for the preparation of organic light emitting diode (OLED) devices, to methods for preparing OLED devices using the novel formulations, and to OLED devices prepared from such methods and formulations.05-03-2012
20120104378CARBENE METAL COMPLEXES AS OLED MATERIALS - An organic light emitting device having an anode, a cathode and an organic layer disposed between the anode and the cathode is provided. In one aspect, the organic layer comprises a compound having at least one zwitterionic carbon donor ligand. In another aspect, the organic layer comprises a carbene compound, including the following:05-03-2012
20120104377ORGANIC THIN FILM TRANSISTOR AND METHOD FOR FABRICATING THE SAME - Disclosed herein are a method for fabricating an organic thin film transistor, including treating the surfaces of a gate insulating layer and source/drain electrodes with a self-assembled monolayer (SAM)-forming compound through a one-pot reaction, and an organic thin film transistor fabricated by the method. According to example embodiments, the surface-treatment of the gate insulating layer and the source/drain electrodes may be performed in a single vessel through a single process.05-03-2012
20120104376Benzoxazole Derivative, and Light-Emitting Element, Light-Emitting Device, and Electronic Device Using Benzoxazole Derivative - Disclosed is a novel benzoxazole derivative which has high excitation energy, particularly high triplet excitation energy, and is a bipolar substance. A benzoxazole derivative represented by the following General Formula (G1) is provided.05-03-2012
20120104375METHOD OF MANUFACTURING ELECTRICAL CONTACTS ON ORGANIC SEMICONDUCTORS - A method for producing electrical contacts on organic semiconductors is described. The method, which involves low energy impact and can be carried out under ambient conditions, comprises covering the relevant surface of the semiconductor with a layer of an appropriate solvent: a metal leaf having an appropriate thickness and work function containing metal oxide impurities is deposited onto the area treated in this manner. Electrical contacts with elevated conductivity are obtained by evaporating the solvent. One embodiment of the invention describes a family of crystalline semiconductors, preferably based on perylene or α-quaterthiophene, provided with the electrical contacts according to the method described herein and provided with particular structural characteristics. The use of metal leaf satisfying the above-stated requirements (for example imitation gold leaf, gold leaf etc.). in the above-described method is furthermore described.05-03-2012
20120104373Organometallic Complex, and Light-Emitting Element and Display Device Using the Organometallic Complex - An object is to provide a novel organometallic complex capable of phosphorescence and having high heat resistance. Alternatively, an object is to provide a light-emitting device with high added value. The objects are achieved by providing an organometallic complex which has a structure represented by a general formula (G1) or (G2) below and is formed in such a way that a corresponding one of pyrazine derivatives represented by general formulae (G0) and (G0′) below is ortho-metalated by a Group 9 or Group 10 metal ion, or by providing a light-emitting element and a light-emitting device including the organometallic complex.05-03-2012
20120104372Organic Light-emitting Display Device - An organic light-emitting display device for suppressing external light reflection and reducing pixel blurring by disposing a scattering structure in a direction a light is extracted at a distance equal to or below an adjacent pixel pitch.05-03-2012
20120104371Phosphorescent Compound and Organic Electroluminescent Device Using the Same - A phosphorescent compound is represented by following Formula:05-03-2012
20120104370Carbazole Compound, Light-Emitting Element Material, Organic Semiconductor Material, Light-Emitting Element, Light-Emitting Device, Lighting Device, and Electronic Device - A carbazole compound in which the 2-position of a dibenzofuran skeleton or a dibenzothiophene skeleton is bonded to the 3-position of a carbazole skeleton and nitrogen of the carbazolyl group is bonded to the 9- or 10-position of an anthracene skeleton directly or via a phenylene group was able to be synthesized. It was found out that the carbazole compound has an excellent carrier-transport property, favorable film quality, and a wide band gap, and can be suitably used as a light-emitting element material and an organic semiconductor material.05-03-2012
20120104369Phenanthrene Compound, Light-Emitting Element, Light-Emitting Device, Electronic Device, and Lighting Device - A novel compound having high triplet excitation energy and a bipolar property is provided. Specifically, a phenanthrene compound represented by General Formula (G1) is provided where R05-03-2012
20120104368DISPLAY APPARATUS - In a display apparatus in which a plurality of pixel units including a plurality of pixels whose emission colors are different are arranged and white is displayable by the pixel unit, the pixel includes an organic EL device, and lenses are provided in the pixel unit to minimize a difference of currents supplied to the organic EL devices for respective emission colors when white of desired luminance is displayed.05-03-2012
20120104367DISPLAY APPARATUS - A display apparatus includes pixel units, each including a plurality of pixels having different emission colors. The pixel unit is provided with lenses so that the difference in deterioration property among the emission colors of the pixels.05-03-2012
20120104366SURFACE-TREATED SUBSTRATE FOR AN INKJET PRINTER - The present invention relates to a substrate for inkjet printing of an organic semiconductor and, more particularly, to a substrate for inkjet printing of an organic semiconductor in which the surface energy is controlled in order to form a uniform and crystalline organic semiconductor thin film. The substrate for inkjet printing according to the present invention has the surface of a dielectric layer treated to be hydrophilic, causing the organic semiconductor molecules printed on the substrate to self-assemble with high crystallinity.05-03-2012
20120104365ELECTRONIC COMPONENTS WITH INTEGRATED ENCAPSULATION - An embodiment relates to an electronic component that may consist of an organic LED or organic solar cell, that comprises at least one substrate, one active layer provided between a first and a second electrode and having an active layer protected from dioxygen and the water vapor of the air by the second electrode that encapsulates the active layer.05-03-2012
201201043649,10-BISPHENYLPHENANTHRENE DERIVATIVE AND ORGANIC LIGHT EMITTING DIODE USING THE SAME - A 9,10-bisphenylphenanthrene derivative has a structure of formula (1):05-03-2012
20120104363ORGANIC LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - An organic light emitting device having a light emitting unit that includes an anode layer, a second wire, an insulating layer, first and second organic light emitting layers and a cathode layer is provided. The anode layer includes first and second sub-electrodes and a first wire connecting the first and second sub-electrodes that are arranged in a first direction. The second wire is disposed between the first and second sub-electrodes. The insulating layer is disposed on the first and second sub-electrodes and the second wire, and has a plurality of openings to expose the first sub-electrode, the second sub-electrode and the second wire. The first and second organic light emitting layers are disposed in two openings. The cathode layer is disposed on the first and second organic light emitting layers, and the cathode layer fills another opening to electrically connect to the second wire through the another opening.05-03-2012
20120104362Formation of ordered thin films of organics on metal oxide surfaces - Provided herein is a method for altering an electronic property of a structure comprising an oxide surface or an oxide surface in electronic communication with the structure, the method comprising providing a covalently-bound film comprising at least one organic acid residue on a portion of the oxide surface so that at least one of the following properties of the structure is modified: (a) the charge carrier injection barrier properties; (b) the charge conductivity properties; (c) the charge transport properties; (d) the work function properties; (e) the sub-threshold slope; and (f) the threshold voltage.05-03-2012
20090212281ORGANIC SEMICONDUCTOR DEVICE, DISPLAY USING SAME, AND IMAGER - An organic semiconductor device in which recombination of holes and electrons and photoelectric conversion in an organic semiconductor layer are efficiently allowed to occur. The device comprises a bipolar organic semiconductor layer where electrons and holes move, a hole giving/receiving electrode which gives/receives holes to/from the organic semiconductor layer, an electron giving/receiving electrode which is spaced a predetermined distance from the hole giving/receiving electrode and gives/receives electrons to/from the organic semiconductor layer, a hole-side gate electrode which is opposed to a region of the organic semiconductor layer near the hole giving/receiving electrode with an insulating layer between the hole-side gate electrode and the region and serves to control the hole distribution in the organic semiconductor layer, and an electron-side gate electrode which is opposed to the region of the organic semiconductor layer with the insulating layer therebetween and serves to control the electron distribution in the organic semiconductor layer.08-27-2009
20090242875FORMING ELECTRODES TO SMALL ELECTRONIC DEVICES HAVING SELF-ASSEMBLED ORGANIC LAYERS - In one embodiment of the invention, a method of fabricating a SAM device comprises the steps of: (a) providing a substrate having a top surface and a first metal electrode disposed on the top surface, (b) annealing the first metal electrode, (c) forming a SAM layer on a major surface of the first electrode, the SAM layer having a free surface such that the SAM is disposed between the free surface and the major surface of the first electrode, and (d) forming a second metal electrode on the free surface of the molecular layer. Forming step (d) includes the step of (d1) depositing the second metal electrode in at least two distinct depositions separated by an interruption period of time when essentially no deposition of the second metal takes place. SAM FETs fabricated using this method are also described.10-01-2009
20090242878OPTIMIZATION OF NEW POLYMER SEMICONDUCTORS FOR BETTER MOBILITY AND PROCESSIBALITY - In accordance with the invention, there are polymers (II) having the formula:10-01-2009
20080246029Thin film transistor, organic light emitting display device including the same, and method of manufacturing the organic light emitting display device - A thin film transistor, e.g., for use in an organic light emitting display, may include: a gate insulating layer disposed on a gate electrode located on a substrate; a semiconductor layer, disposed on the gate insulating layer; and a planarization layer disposed on the gate insulating layer, the source and drain electrodes, and the channel area, and having openings exposing parts of the first source and drain areas and the source and drain electrodes, respectively. The semiconductor layer may include: a channel area corresponding to the gate electrode; first source and drain areas doped with an impurity outside the channel area; second source and drain areas, including a metal, outside the first source and drain areas; and source and drain electrodes disposed on the second source and drain areas and exposing the first source and drain areas. A pixel electrode may be disposed in one of the openings.10-09-2008
20090250690ORGANIC THIN FILM TRANSISTOR SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - In an organic thin film transistor (TFT) substrate, the organic TFT substrate includes gate lines, data lines, a gate electrode, a source electrode, a drain electrode, a gate insulating layer, an organic semiconductor layer, and an organic protective layer. The gate and data lines are insulated from each other and cross each other to define pixel areas. The gate electrode is connected to the gate line. The source electrode is connected to the data line. The drain electrode faces the source electrode with the gate electrode disposed therebetween. The gate insulating layer covers the gate electrode and exposes a portion of the source and drain electrodes. The organic semiconductor layer contacts the source and drain electrodes. The organic protective layer is disposed on the organic semiconductor layer to protect the organic semiconductor layer.10-08-2009
20090242876CARBAZOLE COMPOUNDS - The present invention relates to carbazole compounds of formula (I) and a semiconducting material comprising such carbazole compounds. It also relates to a process for the preparation of such carbazole compounds, as well as to the use thereof as a semiconducting material, in particular as a host matrix for phosphorescent emitters.10-01-2009
20090095954FIELD-EFFECT TRANSISTOR - A field-effect transistor is provided, which includes an organic thin film and which can realize a low threshold voltage while a stable, high field-effect mobility is ensured at the same time. In a field-effect transistor provided with a gate electrode, a source electrode, a drain electrode, a semiconductor film, a gate insulating film, and a substrate, the gate insulating film is formed from a plurality of insulating layers. Here, a first insulating layer in contact with the semiconductor film is formed from poly-p-xylylene formed into a film by a CVD method. A second insulating layer is formed from, for example, cyanoethylpullulan, and the dielectric constant is specified to be higher than that of the first insulating layer.04-16-2009
20090256143OLIGOTHIOPHENE-ARYLENE DERIVATIVES AND ORGANIC THIN FILM TRANSISTORS USING THE SAME - An oligothiophene-arylene derivative wherein an arylene having n-type semiconductor characteristics is introduced into an oligothiophene having p-type semiconductor characteristics, thereby simultaneously exhibiting both p-type and n-type semiconductor characteristics. Further, an organic thin film transistor using the oligothiophene-arylene derivative.10-15-2009
20090256137N-TYPE SEMICONDUCTOR MATERIALS IN THIN FILM TRANSISTORS AND ELECTRONIC DEVICES - A thin film transistor comprises a layer of organic semiconductor that comprises an N,N′-1,4,5,8-naphthalenetetracarboxylic acid diimide having at least one cycloalkyl group having a fluorinated substituent at its 4-position that adopts an equatorial orientation in the trans configuration of the cycloalkyl group and an axial orientation in the cis configuration of the cycloalkyl group. Such transistors can be a field effect transistor having a dielectric layer, a gate electrode, a source electrode and a drain electrode. The gate electrode and the thin film of organic semiconductor material both contact the dielectric layer, and the source electrode and the drain electrode both contact the thin film of organic semiconductor material.10-15-2009
20090256145ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM LIGHT-EMITTING TRANSISTOR - An organic thin film transistor including a substrate having thereon at least three terminals of a gate electrode, a source electrode and a drain electrode, an insulator layer and an organic semiconductor layer, with a current between a source and a drain being controlled upon application of a voltage to the gate electrode, wherein the organic semiconductor layer includes a specified organic compound having a divalent aromatic hydrocarbon group having a phenanthrene structure in the center thereof; and an organic thin film light emitting transistor utilizing an organic thin film transistor, wherein the organic thin film transistor is one in which light emission is obtained utilizing a current flowing between the source and the drain, and the light emission is controlled upon application of a voltage to the gate electrode, and is made high with respect to the response speed and has a large ON/OFF ratio, are provided.10-15-2009
20100264408Organic Thin Film Transistors, Active Matrix Organic Optical Devices and Methods of Making the Same - A method of manufacturing an organic thin film transistor, comprising: providing a substrate comprising source and drain electrodes defining a channel region; forming a patterned layer of insulting material defining a well surrounding the channel region; depositing a protective layer in the well; subjecting exposed portions of the patterned layer of insulating material to a de-wetting treatment to lower the wettability of the exposed portions; removing the protective layer; and depositing organic semiconductive material from solution into the well.10-21-2010
20100264405TRANSITION METAL COMPLEXES WITH BRIDGED CARBENE LIGANDS AND USE THEREOF IN OLEDS - Bridged cyclometalated carbene complexes, a process for preparing the bridged cyclometalated carbene complexes, the use of the bridged cyclometalated carbene complexes in organic light-emitting diodes, organic light-emitting diodes comprising at least one inventive bridged cyclometalated carbene complex, a light-emitting layer comprising at least one inventive bridged cyclometalated carbene complex, organic light-emitting diodes comprising at least one inventive light-emitting layer and devices which comprise at least one inventive organic light-emitting diode.10-21-2010
20090242879Optoelectronic device and method of fabricating the same - A modified isolated polypeptide comprising an amino acid sequence encoding a photocatalytic unit of a photosynthetic organism being capable of covalent attachment to a solid surface and having a photocatalytic activity when attached thereto is disclosed.10-01-2009
20090140241ORGANIC SEMICONDUCTOR MATERIAL, ORGANIC SEMICONDUCTOR THIN FILM AND ORGANIC SEMICONDUCTOR DEVICE - An organic semiconductor material is provided. The organic semiconductor material includes a polyacene derivative expressed by the following general formula (1):06-04-2009
20100148166Light-Emitting Element, Lighting Device, Light-Emitting Device, and Electronic Apparatus - The light-emitting element comprises a first electrode, a second electrode, and a light-emitting layer between the first electrode and the second electrode, in which a first layer, a second layer, and a third layer are stacked from the first electrode side, the first layer contains a first light-emitting substance and a first organic compound, the second layer contains a second light-emitting substance and a second organic compound, the third layer contains the first light-emitting substance and a third organic compound, the amount of the first light-emitting substance is larger than the amount of the first organic compound, the amount of the second organic compound is larger than the amount of the second light-emitting substance, and the amount of the third organic compound is larger than the amount of the first light-emitting substance. A light-emitting element with such a structure can have high emission efficiency.06-17-2010
20100148161COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed are an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, fully secured of driving stability, and of simple constitution and a compound useful for the fabrication of said organic EL device. The compound for the organic EL device has an indolocarbazole structure or a structure similar thereto in the molecule wherein an aromatic group is bonded to the nitrogen atom in the indolocarbazole. The organic EL device has a light-emitting layer disposed between an anode and a cathode piled one upon another on a substrate and said light-emitting layer comprises a phosphorescent dopant and the aforementioned compound for an organic electroluminescent device as a host material.06-17-2010
20100148162COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed are a compound for an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, fully secured of driving stability, and of simple constitution and an organic EL device using said compound. The compound for an organic EL device has two indolocarbazole skeletons each of which is bonded to an aromatic group or two skeletons similar thereto. The organic EL device comprises a light-emitting layer disposed between an anode and a cathode piled one upon another on a substrate and said light-emitting layer comprises a phosphorescent dopant and the aforementioned compound for an organic EL device as a host material.06-17-2010
20090256144METHOD FOR MANUFACTURING ORGANIC TRANSISTOR AND ORGANIC TRANSISTOR - A method of producing an organic transistor which can form directly an organic semiconductor layer in pattern by simple processes and can produce an organic transistor excellent in transistor characteristics. The method includes: forming a hydrophobic/hydrophilic pattern substrate, in which a hydrophobic/hydrophilic pattern substrate is formed by using a hydrophobic substrate and by forming the hydrophilic region in pattern on the hydrophobic surface; forming a lyophilic functional layer, in which a lyophilic functional layer, made of an insulating functional material having the predetermined characteristics and having higher lyophilic properties to an organic solvent than that of the hydrophobic region, is formed on the hydrophilic region; forming an organic semiconductor layer, in which an organic semiconductor layer is formed on the lyophilic functional layer by selectively coating a coating solution for forming an organic semiconductor layer, which has an organic semiconductor material and an organic solvent, to the lyophilic functional layer.10-15-2009
20090256138ORGANIC THIN FILM TRANSISTOR - Organic thin film transistors with improved mobility are disclosed. The semiconducting layer comprises a semiconductor material of Formula (I):10-15-2009
20120193618METHOD FOR MANUFACTURING ORGANIC SEMICONDUCTOR FILM, AND ORGANIC SEMICONDUCTOR FILM ARRAY - A raw material solution containing an organic semiconductor material and a solvent is supplied onto a substrate 08-02-2012
20120193617LOW-MOLECULAR COMPOUND, POLYMER, ELECTRONIC-DEVICE MATERIAL, COMPOSITION FOR ELECTRONIC DEVICE, ORGANIC ELECTROLUMINESCENT ELEMENT, ORGANIC SOLAR CELL ELEMENT, DISPLAY AND LIGHTING - A subject for the invention is to provide compounds where a film formation can be made by a wet film formation method, a heating temperature at the film formation is low, the film formed therefrom has high stability, and the other layers can be laminated thereon by a wet film formation method or another method. The compounds are usable as a material for electronic device which decreases little in charge transport efficiency or luminescent efficiency and which have excellent driving stability. The invention resides in a compound and a polymer which are characterized by having a elimination group of a specific structure and in an organic compound characterized by having a elimination group having a low elimination temperature.08-02-2012
20090256139THIN-FILM TRANSISTORS - A thin film transistor having a semiconducting layer with improved flexibility and/or mobility is disclosed. The semiconducting layer comprises a semiconducting polymer and insulating polymer. Methods for forming and using such thin-film transistors are also disclosed.10-15-2009
20100038631ELECTRONIC DEVICE COMPRISING SEMICONDUCTING POLYMERS - An electronic device comprises a semiconducting polymer of Formula (I):02-18-2010
20100264406LIGHT EMITTING DEVICE MATERIAL AND LIGHT EMITTING DEVICE - A light emitting device material containing a pyrromethene compound represented by the general formula (1). It realized a luminescent element having a high luminescent efficiency and excellent color purity. Also provided is a luminescent element employing the materials.10-21-2010
20110127516POLYMER COMPOUND AND LIGHT-EMITTING ELEMENT USING SAME - A polymer compound including: the repeating unit shown in the following formula (I) (wherein: Ar06-02-2011
20120193612ORGANIC LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - The present invention relates to a heat emitting body comprising a transparent board, a bus bar, a power supply connected to the bus bar, a heat emitting pattern line provided on the transparent board and electrically connected to the bus bar, and a non-heat emitting pattern line provided on the transparent board and not electrically connected to the bus bar, and a method for manufacturing the same.08-02-2012
20100155706Material for organic photoelectric device including electron transporting unit and hole transporting unit, and organic photoelectric device including the same - A material for an organic photoelectric device, the material including a compound including a pyridine06-24-2010
20100148164ALL-ORGANIC SENSOR/ACTUATOR SYSTEM - A sensor and/or actuator system in which functional circuitry is embedded in an all organic electromechanical transducer device is disclosed. The electromechanical transducer device exploits the behavior of a flexible sensible ionomeric material sheet as effective sensing or actuating member sandwiched between flexible organic electrodes when undergoing a deformation or being polarized at a certain drive voltage applied to the, electrodes, respectively. The completely embedded all organic system is realized with a process exploiting relatively low cost deposition and patterning techniques. The enhanced flexibility makes the all organic device suitable for new applications in fields ranging from biomedical to aerospace industry.06-17-2010
20100163857Material for organic photoelectric device, and organic photoelectric device including the same - A material for an organic photoelectric device includes a compound represented by the following Formula 1:07-01-2010
20090315023Opto-Electrical Devices and Methods of Manufacturing the Same - A composition for use in the manufacture of an opto-electrical device, the composition comprising: a conductive or semi-conductive organic material; a solvent; and a first additive, wherein the first additive is an alcohol ether having a boiling point lower than 170° C.12-24-2009
20100148157ORGANIC LIGHT EMITTING APPARATUS AND METHOD OF MANUFACTURING THE SAME - Provided are an organic light emitting apparatus and a method of manufacturing the same. The organic light emitting apparatus includes: a filling material between a diode substrate on which an organic light emitting unit is formed and an encapsulation substrate; and an organic protection layer that is interposed between the organic light emitting unit and the filling material and includes at least one thermally depositable organic material.06-17-2010
20100148156Method for producing nanoparticle/block copolymer composites - A method for producing nanoparticle/block copolymer composites is provided. The method includes mixing nanoparticles having an organic ligand L and a block copolymer A-b-B having block repeating units A and B with different solubility parameters in a solvent S to form micelles by self-assembly. The solubility parameters of the organic ligand L, the block repeating units A and B of the block copolymer A-b-B and the solvent S satisfy the following inequalities:06-17-2010
20100148160ORGANIC ELECTRONIC DEVICES PROTECTED BY ELASTOMERIC LAMINATING ADHESIVE - An active organic electronic component is protected within an organic electronic device by an elastomeric laminating adhesive, which adheres the substrate and cover of the electronic device and encloses and protects the active organic component within the device. The organic electronic device has a structure comprising (a) a substrate; (b) an active organic component disposed on the substrate, and optionally, a barrier coating disposed over the active organic component and over part of the substrate; (c) a cover, and optionally a getter associated with the cover; (d) a cured elastomeric laminating adhesive applied in the area between the substrate and the cover and closing the active organic component. The laminating adhesive may be theremally curable or curable by actinic radiation.06-17-2010
20100148158ORGANIC COMPOUND AND ORGANIC LIGHT EMITTING DEVICE CONTAINING THE SAME - Disclosed is a compound represented by the following Formula 1:06-17-2010
20100171103Ferro-Electric Device And Modulatable Injection Barrier - Described is a modulatable injection barrier and a semiconductor element comprising same. More particularly, the invention relates to a two-terminal, non-volatile programmable resistor. Such a resistor can be applied in non-volatile memory devices, and as an active switch e.g. in displays. The device comprises, in between electrode layers, a storage layer comprising a blend of a ferro-electric material and a semiconductor material. Preferably both materials in the blend are polymers.07-08-2010
20100148165Light-Emitting Element, Light-Emitting Device, and Electronic Device - A light-emitting element includes a light-emitting layer having a two-layer structure in which a first light-emitting layer containing a first light-emitting substance and a second light-emitting layer containing a second light-emitting substance, which is in contact with the first light-emitting layer, are provided between an anode and a cathode. The first light-emitting layer is separated into two layers of a layer provided on the anode side and a layer provided on the cathode side. The layer provided on the anode side contains only a first light-emitting substance, or a first organic compound of less than 50 wt % and the first light-emitting substance of 50 wt % to 100 wt %. The layer provided on the cathode side contains a second organic compound and the first light-emitting substance. The second light-emitting layer, which is provided in contact with the first light-emitting layer, contains the second light-emitting substance and a third organic compound.06-17-2010
20100148163ORGANIC LIGHT EMITTING DISPLAY APPARATUS - An organic light emitting display apparatus includes an organic light emitting diode, a photo sensor, and a light blocking portion. The light blocking portion is at at least a side of the photo sensor so that light emitted from the organic light emitting diode is not directly incident on the photo sensor.06-17-2010
20100187511AROMATIC AMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - An aromatic amine derivative having ring structures on the both sides of central double bond structure, an organic electroluminescence device including the aromatic amine derivative, and an organic electroluminescence material-containing solution including the aromatic amine derivative as one of organic electroluminescence materials and a solvent, the organic electroluminescence device having a long lifetime and high luminous efficiency and being capable of emitting blue light having a high color purity, and being realized with the aromatic amine derivative and the organic electroluminescence material-containing solution.07-29-2010
20100155707ORGANIC FIELD-EFFECT TRANSISTORS - An organic field-effect transistor comprising: a source region; a drain region; one or more organic semiconductor layers disposed between the source and drain regions; a gate region; and a dielectric region disposed between the organic semiconductor layer(s) and the gate region; wherein the composition of the organic semiconductor layer(s) is such as to transport both electrons and holes, with the mobility of the holes being substantially equal to the mobility of the electrons such that the transistor substantially exhibits ambipolarity in its transfer characteristics. The organic field-effect transistor is preferably a light-sensing organic field-effect transistor. Numerous modifications to the composition and structure of organic field-effect transistors are also disclosed, as are examples of electro-optical switches, electro-optical logic circuits and image sensing arrays.06-24-2010
20100155714ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device including a substrate, a first and a second electrode, and an emitting layer formed between the first electrode and the second electrode. The emitting layer includes a plurality of materials which is a blue emitting material using a following chemical formula as dopant.06-24-2010
20100181558SEMICONDUCTOR DEVICE, SEMICONDUCTOR DEVICE MANUFACTURING METHOD AND IMAGE DISPLAY DEVICE - A semiconductor device having semiconductor elements disposed with higher density and a method for manufacturing the same are provided.07-22-2010
20100193779BOTTOM GATE THIN FILM TRANSISTOR, FLAT PANEL DISPLAY HAVING THE SAME AND METHOD OF FABRICATING THE SAME - A bottom gate thin film transistor (TFT), a flat panel display having the same, and a method of fabricating the same are disclosed. The TFT comprises a gate electrode disposed on a substrate, and a gate insulating layer disposed on the gate electrode. A semiconductor layer is disposed on the gate insulating layer and crossing over the gate electrode, and is crystallized by an MILC technique. An inter-insulating layer is disposed on the semiconductor layer and comprises source and drain contact holes which expose portions of the semiconductor layer. The source and drain contact holes are separated from at least one edge of the semiconductor layer crossing over the gate electrode. The semiconductor layer comprises conductive MIC regions corresponding to the exposed portions of the semiconductor layer in the source and drain contact holes.08-05-2010
20100155713Metal complex compound and organic electroluminescent device using same - A metal complex compound having a special structure containing metals such as iridium. An organic electroluminescence device which comprises at least one organic thin film layer sandwiched between a pair of electrode consisting of an anode and a cathode, wherein the organic thin film layer comprises the above metal complex compound, which emits light by applying an electric voltage between the pair of electrode. An organic EL device employing the novel metal complex compound emits various phosphorous lights including blue light having an enhanced current efficiency and prolonged lifetime.06-24-2010
20100155711ORGANIC LIGHT-EMITTING ELEMENT AND LIGHT-EMITTING DEVICE USING THE SAME - An organic light-emitting element includes a first electrode, a second electrode, and at least one organic compound layer disposed between the first electrode and the second electrode. The organic compound layer includes a light-emitting layer containing a light-emitting material and being configured to emit light toward the first electrode and the second electrode. The light emitted toward the first electrode is reflected from a reflection plane located at the first electrode to cause interference with the light emitted toward the second electrode. The interference provides an interference intensity distribution having a maximum peak at a wavelength λ06-24-2010
20100155708REDUCING DEFECTS IN ELECTRONIC SWITCHING DEVICES - A technique for isolating electrodes on different layers of a multilayer electronic device across an array containing more than 100000 devices on a plastic substrate. The technique comprises depositing a bilayer of a first dielectric layer (06-24-2010
20100155709ENCAPSULATION FOR AN ELECTRONIC THIN FILM DEVICE - The present invention relates to an encapsulation for an electronic thin film device, comprising a first barrier layer (06-24-2010
20100163854ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device (OLED) including: a substrate; a first electrode; a second electrode facing the first electrode; a first blue light emitting layer, a green light emitting layer, a red light emitting layer, and a second blue light emitting layer all interposed between the first electrode and the second electrode; and a color filter disposed in a path of light emitted from the light emitting layers, wherein the first blue light emitting layer includes a deep blue dopant, and the second blue light emitting layer includes a sky blue dopant.07-01-2010
20100163853ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device including an emitting layer, an electron-injecting controlling layer and an electron-transporting layer between an anode and a cathode in sequential order from the anode, bonding one to another, the emitting layer including a host material and a dopant, the ionization potential (Ips) of the main material forming the electron-injecting controlling layer and the ionization potential (Iph) of the host material of the emitting layer satisfying the following relationship (i), the electron mobility of the electron-transporting material forming the electron-transporting layer being 1007-01-2010
20120032157COATING METHOD, AND ORGANIC ELECTROLUMINESCENCE ELEMENT - Disclosed are a coating method of forming a coating with a stable thickness from a coating solution with a low viscosity employing a slit-type die coater and an organic electroluminescence element prepared employing the coating method. The coating method employing a slit-type die coater comprises the steps of allowing a lip tip of the slit-type die coater to bring close to the substrate to form a coating solution bead between the lip tip and the substrate, and coating on the substrate a coating solution ejected from a slit outlet at the lip tip while relatively moving the slit-type die coater and the substrate, thereby forming at least two coating layers in the stripe shape, featured in that the lip tip has at least one groove in the coating region in the coating width direction, and a pressure at the slit outlet of the coating solution of the bead is negative or zero.02-09-2012
20120032159DISPLAY DEVICE AND MANUFACTURING METHOD OF DISPLAY DEVICE - It is an object of the present invention to provide a reliable display device and a method for manufacturing the display device reducing the number of manufacturing steps, and with higher yield. A display device according to the invention includes a plurality of display elements each having a first electrode, a layer containing an organic compound, and a second electrode. The display device further includes a heat-resistant planarizing film over a substrate having an insulating surface, a first electrode over the heat-resistant, planarizing film, a wiring covering an end portion of the first electrode, a partition wall covering the end portion of first electrode and the wiring, a layer containing an organic compound, and a second electrode over the layer containing an organic compound.02-09-2012
20100187512POLYCYCLIC RING ASSEMBLY COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE EMPLOYING THE SAME - Polycyclic ring assembly compound which has a specific flexible partial structure, i.e., a structure containing an aromatic ring in which adjacent carbon atoms have, bonded thereto, an aromatic ring group of another kind and an aliphatic group or aromatic ring group. Also provided are: a polymer constituted of repeating units at least part of which are structures derived from the polycyclic ring assembly compound; a solution of an organic EL material containing the polycyclic ring assembly compound or the polymer; and an organic electroluminescence device. The organic electroluminescence device has excellent heat resistance, high color purity, and a long lifetime and can emit a blue light or green light at a high luminescent efficiency. The polycyclic ring assembly compound realizes the device.07-29-2010
20100187519MATERIAL FOR ORGANIC ELECTROLUMINESCENT ELEMENT, AND ORGANIC ELECTROLUMINESCENT ELEMENT - A material for an organic electroluminescence device including at least one of compounds shown by the following formula (Ia), (Ib), (IIa), (IIb), (III), (IVa) or (IVb):07-29-2010
20100187516ORGANIC SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING ORGANIC SEMICONDUCTOR DEVICE - An organic semiconductor device of preventing invasion of hydrogen or hydrogen ion into the device and having a long-term reliability, and a method of manufacturing thereof are provided by giving a hydrogen absorbing layer which absorbs hydrogen or hydrogen ion, and which does not release the absorbed hydrogen or hydrogen ion.07-29-2010
20100258791ORGANIC ELECTROLUMINESCENCE DEVICE AND MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device includes: a cathode; an anode; and an organic thin-film layer including at least one layer and provided between the cathode and the anode. At least one layer of the organic thin-film layer includes: an organic-electroluminescence-device material represented by any one of the following formulae (1), (2) and (3); and at least one phosphorescent material, in which the organic-electroluminescence-device material may have a substituent. A or Ar may be substituted by a phenyl group or a naphthyl group.10-14-2010
20100258790USE OF DIPHENYLAMINO-BIS(PHENOXY)- AND BIS(DIPHENYLAMINO)-PHENOXYTRIAZINE COMPOUNDS - The present invention relates to an organic light-emitting diode comprising at least one diphenylaminobis(phenoxy)triazine or at least one bis(diphenylamino)phenoxytriazine compound, to a light-emitting layer comprising at least one diphenylamino-bis(phenoxy)triazine or at least one bis(diphenylamino)phenoxytriazine compound, to the use of the aforementioned compounds as a matrix material, hole/exciton blocker material, electron/exciton blocker material, hole injection material, electron injection material, hole conductor material and/or electron conductor material, and to a device selected from the group consisting of stationary visual display units, mobile visual display units and illumination units comprising at least one inventive organic light-emitting diode.10-14-2010
20100181557ORGANIC LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - An organic light emitting diode (OLED) and a manufacturing method thereof are provided. The OLED includes a substrate, and a first electrode serving as an anode, an organic material layer, a second electrode serving as a cathode, and a sealing layer are formed on the substrate in sequence, and the second electrode is a composite transparent structure layer realizing light emission at the top portion. By forming the composite transparent cathode with a light-transmissive top portion, the OLED emits lights from the top portion, so as to effectively enhance a light utilization ratio and a light transmission ratio, and thus not only an aperture ratio of a display screen is enhanced, but also an excellent displaying effect is obtained. Meanwhile, by adding a mesh-shaped current collection layer on a high-resistance semi-transparent metal layer, a current conducting capability is enhanced while ensuring a high light transmission ratio, thereby effectively satisfying the demands for the top-emitting OLED, which is applicable to a double-sided display device. The OLED has a simple structure and simple and reliable manufacturing technique, which thus has a wide application prospect.07-22-2010
20100187510ELECTRONIC DEVICE INCLUDING 1,7-PHENANTHROLINE DERIVATIVE - There is provided an organic electronic device having an anode, a hole injection layer, a photoactive layer, an electron transport layer, and a cathode. At least one of the photoactive layer and the electron transport layer includes a compound having Formula I or Formula II07-29-2010
20100193776ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device 08-05-2010
20100187509VINYLPHENOXY POLYMERS - There is provided a vinylphenoxy polymer having at least one monomeric unit selected from the group consisting of Formula Ia, Formula Ib and Formula Ic:07-29-2010
20100187521BLUE ORGANIC LIGHT EMITTING DEVICE - A blue organic light emitting device is provided. The blue organic light emitting device comprises a first electrode; a second electrode; and an organic layer including an electron transport layer between the first electrode and the second electrode, wherein the electron transport layer includes a material having an energy gap of 2.8 eV or more between a highest occupied molecular orbital (HOMO) and a lowest unoccupied molecular orbital (LUMO).07-29-2010
20100187507ELECTROACTIVE MATERIALS - There is provided a compound having Formula I:07-29-2010
20130214258CARBAZOLE COMPOUND, MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE - A compound of the invention is represented by a formula (1) below. In the formula (1), at least one of A08-22-2013
20130214259ORGANIC ELECTROLUMINESCENT ELEMENT, COMPOUNDS AND MATERIALS USED FOR THE ORGANIC ELECTROLUMINESCENT ELEMENT, AND LIGHT-EMITTING, DISPLAY AND ILLUMINATING DEVICES USING THE ELEMENTS - An organic electroluminescent element is provided that has high luminous efficiency, and a slow luminance deterioration rate in the initial stage of lighting. The organic electroluminescent element includes a substrate; a pair of electrodes including an anode and a cathode, disposed on the substrate; and at least one organic layer including a light emitting layer, disposed between the electrodes, wherein at least one organic layer includes a compound represented by the general formula (1). (R08-22-2013
20130214260Bipyridine Compound, Light-Emitting Element Material, Organic Semiconductor Material, Light-Emitting Element, Display Module, Lighting Module, Light-Emitting Device, Lighting Device, Display Device and Electronic Device - A light-emitting element having good characteristics can be obtained by using a bipyridine compound having at least one 2,2′-bipyridine structure and at least two anthracene skeletons as light-emitting element materials. In particular, a bipyridine compound in which an anthracene skeleton is bonded to each of the 5-position and the 6-position of 2,2′-bipyridine through an arylene group can be synthesized and a light-emitting element having good characteristics can be obtained in the case where the bipyridine compound is used as a light-emitting element material.08-22-2013
20130214267SPIRO[CYCLOPENTA[def]TRIPHENYLENE-4,9'-FLUORENE] COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE HAVING THE SAME - The present invention provides a spiro[cyclopenta[def]triphenylene-4,9′-fluorene] compound having a high triplet energy level and a high glass transition temperature and also provides an excellent organic light-emitting device including the compound to achieve a high luminous efficiency and a low driving voltage.08-22-2013
20100176388THIN FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME AND FLAT PANEL DISPLAY DEVICE HAVING THE SAME - A thin film transistor which has a compound semiconductor including oxygen as an activation layer, a method of manufacturing the thin film transistor, and a flat panel display device having the thin film transistor, of which the thin film transistor comprises: a gate electrode formed on a substrate; an activation layer formed on the gate electrode, insulated from the gate electrode by a gate insulating film, and formed of a compound semiconductor including oxygen; a passivation layer formed on the activation layer; and source and drain electrodes formed to contact the activation layer, wherein the passivation layer includes titanium oxide (TiO07-15-2010
20100176378Fabrication Method for Organic Light Emitting Device and Organic Light Emitting Device Fabricated by the Same Method - The present invention relates to a method for producing an organic light emitting device, comprising a step of sequentially forming on a substrate a first electrode formed of a metal, one or more organic material layers including a light emitting layer, and a second electrode, which comprises a step of forming a layer on the first electrode using a metal having the higher oxidation rate than the first electrode before forming the organic material layer, and to an organic light emitting device produced by the same.07-15-2010
20100193774Quinoid Compounds and Their Use in Semiconducting Matrix Materials, Electronic and Optoelectronic Structural Elements - The invention relates to quinoid compounds and their use in semiconductive matrix materials, electronic and optoelectronic structural elements.08-05-2010
20100193773Nitrogen-containing heterocycle derivative and organic electroluminescent element using the same - A novel derivative of heterocyclic compound having nitrogen atom with a structure made by bonding special groups to benzimidazole, a material for an organic electroluminescence (EL) device comprising the derivative of heterocyclic compound having nitrogen atom and an organic electroluminescence device comprising at least one organic compound layer containing a light emitting layer sandwiched between a pair of electrodes, wherein the device contains the derivative of heterocyclic compound having nitrogen atom. An organic EL device achieving elevation of luminance and of efficiency in light emission even under low driving voltage is obtainable by an employment of the derivative of heterocyclic compound having nitrogen atom for at least one layer composing organic compound layers of the EL device.08-05-2010
20090078933ORGANIC LIGHT EMITTING DEVICE - An organic light emitting device includes a first electrode disposed on a substrate, a plurality of organic function layers disposed on the first electrode and comprising an emitting layer, and a second electrode disposed on the organic function layers. One of the organic layers includes an inorganic material. This layer may be formed adjacent the first electrode or adjacent the second electrode to form top-emission or bottom-emission structures.03-26-2009
20120228593ELECTROACTIVE MATERIALS - There is provided an electroactive material having Formula I09-13-2012
20100187518METHOD OF PRODUCING ORGANIC LIGHT EMITTING DEVICE - A method for producing an organic light emitting device having an anode, a layer containing an electron accepting organic compound, a hole transporting layer containing an organic compound, a light emitting layer containing a macromolecular compound, and a cathode in this order, the layer containing the electron accepting organic compound being in contact with the anode and the hole transporting layer, 07-29-2010
20100187505BENZANTHRACENE DERIVATIVES FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention relates to the compounds of the formula (1) and to organic electroluminescent devices, in particular blue-emitting devices, in which these compounds are used as host material or dopant in the emitting layer and/or as hole-transport material and/or as electron-transport material.07-29-2010
20100187504DIAMINE DERIVATIVES AND ORGANIC ELECTRONIC DEVICE USING THE SAME - The present invention relates to a new diamine derivative, and an organic electronic device using the same. The diamine derivative according to the present invention can serve as a hole injecting, hole transporting, electron injecting, electron transporting, or light emitting material in an organic electronic device including an organic light emitting device. Particularly, it can serve as a light emitting dopant as used alone, in particular, a blue light emitting dopant. The organic electronic device according to the present invention exhibits excellent characteristics in terms of efficiency, drive voltage, life time, and stability.07-29-2010
20100187520LIGHT EMITTING DEVICE MATERIAL AND LIGHT EMITTING DEVICE - Disclosed is a light emitting device material characterized by containing a specific fluorine compound. This light emitting device material enables to obtain a light emitting device having high luminous efficiency, excellent color purity and excellent durability. Also disclosed is a light emitting device using such a light emitting device material.07-29-2010
20100258792LIGHT EMITTING ELEMENT, LIGHT EMITTING DEVICE, AND ELECTRONIC APPARATUS - It is an object of the present invention to provide a light emitting element with a low driving voltage. In a light emitting element, a first electrode; and a first composite layer, a second composite layer, a light emitting layer, an electron transporting layer, an electron injecting layer, and a second electrode, which are stacked over the first electrode, are included. The first composite layer and the second composite layer each include metal oxide and an organic compound. A concentration of metal oxide in the first composite layer is higher than a concentration of metal oxide in the second composite layer, whereby a light emitting element with a low driving voltage can be obtained. Further, the composite layer is not limited to a two-layer structure. A multi-layer structure can be employed. However, a concentration of metal oxide in the composite layer is gradually higher from the light emitting layer to first electrode side.10-14-2010
20100155705Display Device Including Organic Light-Emitting Transistor And Method Of Fabricating The Display Device - Provided are a display device, which has a longer life and can be fabricated simply relative to conventional display devices, and a method of fabricating the display device. The display device includes a substrate which includes first through third subpixel regions, first through third organic light-emitting transistors which are disposed in the first through third subpixel regions, respectively, and are operable to emit light of a first color, and a first fluorescent pattern which is formed on the first organic light-emitting transistor and is operable to cause light of a second color to be emitted.06-24-2010
20080203385Light emitting element and manufacturing method thereof, and light emitting device using the light emitting element - A light-emitting element has a layer including an organic material between a first electrode and a second electrode, and further has a layer including a metal oxide between the second electrode and the layer including the organic material, where these electrodes and layers are laminated so that the second electrode is formed later than the first electrode. The light-emitting element is suppressed damage caused to a layer including an organic material during deposition by sputtering and a phenomenon such as short circuit between electrodes.08-28-2008
20100176380ORGANIC PHOTOELECTRIC DEVICE AND MATERIAL USED THEREIN - The present invention relates to an organic photoelectric device and a material used therein. The organic photoelectric device includes a substrate, an anode disposed on the substrate, a hole transport layer (HTL) disposed on the anode, an emission layer disposed on the hole transport layer (HTL), and a cathode disposed on the emission layer. The emission layer is characterized in that it includes a host and a phosphorescent dopant, and the host has a difference between the reduction potential or oxidation potential of the host and the reduction potential or oxidation potential of the phosphorescent dopant of less than 0.5 eV. The organic photoelectric device according to the present invention is capable of accomplishing higher efficiency and a lower driving voltage than those of the conventional organic photoelectric device, and has a simplified structure resulting in saving of manufacturing cost.07-15-2010
20110108826ANTHRACENE DERIVATIVE AND AN ORGANIC ELECTRONIC DEVICE USING THE SAME - The present invention relates to a novel anthracene derivative and an organic electronic device using the same. The anthracene derivative can act as a hole injecting, hole transporting, electron injecting and transporting, or light emitting material in an organic light emitting device and an organic electronic device. In particular, the anthracene derivative can act as a light emitting host. The organic electronic device according to the present invention has excellent characteristics in views of efficiency, the driving voltage, and the stability.05-12-2011
20100181561ORGANIC LIGHT-EMITTING DEVICE - An organic light emitting device with improved light emitting efficiency, the organic light emitting device includes a substrate, a first electrode arranged on the substrate, a second electrode arranged to face the first electrode, an organic light-emitting layer arranged between the first electrode and the second electrode, an electron transport layer arranged between the organic light-emitting layer and the second electrode, wherein the electron transport layer includes a multi-layer structure that includes at least one first layer and at least two second layers, wherein ones of said at least one first layer and ones of said at least two second layers are alternately stacked, wherein ones of the at least two second layers are arranged at both opposite ends of the electron transport layer, each of the at least two second layers having a lower electron mobility than that of each of the at least one first layer.07-22-2010
20100213445PHOSPHORESCENT POLYMER COMPOUNDS AND ORGANIC ELECTROLUMINESCENT DEVICES MANUFACTURED THEREWITH - A phosphorescent polymer compound has high luminance efficiency and long life. An organic electroluminescent device includes the compound. The phosphorescent polymer compound includes structural units that are derived from a compound represented by Formula (1): wherein R1 to R8 are each independently a hydrogen atom, a halogen atom, a cyano group, an alkyl group, an aryl group, a heteroaryl group, an amino group optionally substituted with an alkyl group, an alkoxy group, a silyl group optionally substituted with an alkyl group, or a group having a radically polymerizable functional group, and one of R1 to R8 is a group having a radically polymerizable functional group; and L is a ligand with a specific five-membered ring structure, and the two ligands L may be the same or different from each other.08-26-2010
20100213447VERTICAL ORGANIC TRANSISTOR, METHOD FOR MANUFACTURING THE VERTICAL ORGANIC TRANSISTOR, AND LIGHT EMITTING ELEMENT - This invention provides a vertical organic transistor that can realize large current modulation and a reduction in production cost, and a method for manufacturing the vertical organic transistor. The vertical organic transistor comprises an upper electrode, a lower electrode, an organic semiconductor provided between both the electrodes, and an intermediate electrode provided within the organic semiconductor, the intermediate electrode being a layered continuous body comprising a continuous insulating metal compound and particulate metals distributed within the insulating metal compound.08-26-2010
20120228590ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE AND ELECTRONIC APPARATUS - An organic electroluminescence display device includes a pixel isolating film that is provided over a substrate and has a plurality of apertures, and a plurality of pixels provided corresponding to the plurality of apertures. Each of the plurality of pixels has a first electrode, a functional layer including at least an organic light emitting layer, and a second electrode sequentially from the side of the substrate, and part or whole of the first electrode is separate from an edge part of the aperture on the side of the substrate.09-13-2012
20100148159METHOD FOR FORMING A PATTERN ON A SUBSTRATE AND ELECTRONIC DEVICE FORMED THEREBY - The invention relates to a method for forming a pattern on a substrate (S) with an upper surface and a lower surface which comprises the steps of depositing a first layer (E06-17-2010
20100176391ORGANIC EL ELEMENT AND A METHOD FOR MANUFACTURING THE ORGANIC EL ELEMENT - A dense cathode electrode layer having a step coverage is to be formed on an electron injection layer. The electron injection layer in which fine particles of an electron injection material is dispersed in an organic thin film having an electron transport property is formed by vapor co-depositing the electron transport material and the electron injection material; and a cathode electrode layer made of an alloy layer of MgAg is formed by a sputtering method. Since lower portions of the fine particles of the electron injection material dispersed in the surface of the organic thin film are buried in the organic thin film, the electron injection particles are not peeled off even if sputtering particles collide with the electron injection particles, and the upper portions are in contact with the cathode electrode layer formed by sputtering particles.07-15-2010
20100176389ORGANIC LIGHT EMITTING DIODE AND METHOD OF MANUFACTURING THE SAME - Provided are an organic light emitting diode and a method of manufacturing the same. The organic light emitting diode adjusts an optical resonance thickness and prevents spectrum distortions without use of an auxiliary layer. The organic light emitting diode includes a first electrode that is optically reflective; a second electrode that is optically transmissible and faces the first electrode; an organic emission layer interposed between the first electrode and the second electrode, the organic emission layer including: a first emission layer including a mixed layer that contains a host material and a dopant material, and a second emission layer comprising only the host material; and a carrier injection transport layer interposed between the organic emission layer and the first electrode or between the organic emission layer and the second electrode.07-15-2010
20100176384Organic luminescence transistor device and manufacturing method thereof - The invention is an organic luminescence transistor device including: a substrate; an assistance electrode layer provided on a side of an upper surface of the substrate; an insulation film provided on a side of an upper surface of the assistance electrode layer; a first electrode provided locally on a side of an upper surface of the insulation film, the first electrode covering an area of a predetermined size; an electric-charge-injection inhibiting layer provided on an upper surface of the first electrode, the electric-charge-injection inhibiting layer having a shape larger than that of the first electrode in a plan view; an electric-charge injection layer provided on the side of an upper surface of the insulation film at an area not provided with the first electrode or the electric-charge-injection inhibiting layer and on an upper surface of the electric-charge-injection inhibiting layer; a luminescent layer provided on an upper surface of the electric-charge injection layer; and a second electrode layer provided on a side of an upper surface of the luminescent layer.07-15-2010
20100176387ORGANIC THIN-FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - An organic thin-film transistor of the present invention has a gate electrode, a gate insulating film, a source electrode, a drain electrode, and an organic semiconductor layer provided above a substrate, and further has a thiol compound layer composed of a benzenethiol compound and provided on a surface of the source electrode and a thiol compound layer composed of a benzenethiol compound and provided on a surface of the drain electrode. This makes it possible to provide an organic thin-film transistor whose threshold voltage can be selectively controlled without greatly affecting a current characteristic other than the threshold voltage.07-15-2010
20100176390ELECTROLUMINESCENT EFFICIENCY - An organic light emitting device is provided. The device has an anode, a cathode, and an emissive layer disposed between the anode and the cathode. The emissive layer further includes a molecule of Formula I (shown below) wherein an alkyl substituent at position R′07-15-2010
20100176381SEMICONDUCTOR DEVICE AND DISPLAY DEVICE - It is an object to provide a display device in which an operational characteristic in a bottom gate type organic semiconductor thin film transistor can be maintained to a stable characteristic without receiving an influence of an electrode provided on an upper layer thereof, and a display with a high reliability can be realized by using this as a driver element. A bottom gate type thin film transistor Tr provided on a substrate 07-15-2010
20100176382Organic light emitting diode display - An organic light emitting diode display device constructed with an organic light emitting element including a first electrode, an organic emission layer, and a second electrode sequentially laminated together, a transmittance control layer formed on the organic light emitting element, a selective reflective layer formed on the transmittance control layer, a polarizing plate formed on the selective reflective layer, and a phase retardation plate disposed between the organic light emitting element and the polarizing plate.07-15-2010
20100176385ORGANIC FUNCTIONAL DEVICE AND MANUFACTURING METHOD THEREFOR - An organic functional device (07-15-2010
20100176379SELF-ALIGNED ORGANIC THIN FILM TRANSISTOR AND FABRICATION METHOD THEREOF - The present invention relates to a self-aligned organic thin film transistor (TFT) and a fabrication method thereof. According to the present invention, a gate electrode is formed from a first conductive layer patterned on a substrate, a gate dielectric layer is formed on top of the substrate to cover the gate electrode, and a second conductive layer is then formed on the gate dielectric layer. Subsequently, ultraviolet (UV) backside exposure for irradiating the second conductive layer with UV from a bottom side of the substrate using the gate electrode as a mask, and source/drain electrodes self-aligned with the gate electrode is then formed not to overlap with the gate electrode by developing the second conductive electrode. Thereafter, an organic semiconductor layer is formed between and on the source/drain electrodes. In the present invention, an organic TFT can be fabricated using a reel-to-reel process, and therefore, the fabrication process can be simplified.07-15-2010
20100176376COPOLYMER AND POLYMER LIGHT EMITTING DEVICE USING THE SAME - A copolymer comprising a repeating unit of the following formula (1) and a repeating unit of the following formula (2):07-15-2010
20100193775ORGANIC TRANSISTOR, ORGANIC TRANSISTOR ARRAY, AND DISPLAY DEVICE - An organic transistor includes a substrate; a gate electrode and a gate insulating film sequentially formed on the substrate in the stated order; and a source electrode, a drain electrode, and an organic semiconductor layer formed on at least the gate insulating film. Ultraviolet light is radiated to the substrate from a side without the gate electrode, transmitted through the substrate and the gate insulating film, reflected at the gate electrode, and absorbed at the organic semiconductor layer. Conductivity of the organic semiconductor layer that has absorbed the ultraviolet light is lower than that of the organic semiconductor layer that has not absorbed the ultraviolet light.08-05-2010
20100224869ORGANIC SEMICONDUCTOR MATERIAL, ORGANIC SEMICONDUCTOR STRUCTURE AND ORGANIC SEMICONDUCTOR APPARATUS - The present invention is directed to the provision of a liquid crystalline organic semiconductor material, which is highly stable under a film forming environment and, at the same time, can easily form a film, for example, by coating. The liquid crystalline organic semiconductor material comprises: a thiophene skeleton comprising 3 to 6 thiophenes linearly connected to each other; and an identical alkyl group having 1 to 20 carbon atoms located on both sides of the thiophene skeleton, wherein acetylene skeletons each have been introduced into between the thiophene skeleton and the alkyl group, or acetylene skeletons have been introduced symmetrically into the thiophene skeleton.09-09-2010
20100237338LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, DISPLAY, AND ELECTRONIC APPARATUS - A light-emitting element includes a cathode; an anode; and a light-emitting section which is disposed between the cathode and the anode and which includes a first light-emitting layer, second light-emitting layer, and third light-emitting layer each containing a corresponding one of luminescent materials emitting light of different colors and host materials supporting the luminescent materials. The first, second, and third light-emitting layers commonly contain a first host material that is one of the host materials. The first light-emitting layer emits light of a first color having a longer wavelength as compared to light emitted from the second and third light-emitting layers and contains a second host material which is one of the host materials and which is different from the first host material. The second host material is superior in enhancing the luminescence of the first light-emitting layer to the first host material.09-23-2010
20090294760ORGANIC SEMICONDUCTORS AND GROWTH APPROACHES THEREFOR - Organic semiconductor devices exhibit desirable mobility characteristics. In connection with various example embodiments, a monolayer of methyl-terminated molecules exhibits density characteristics that are sufficient to promote two-dimensional growth of organic semiconductor material formed thereupon. In some applications, the methyl-terminated molecules are sufficiently dense to dominate inter-layer interactions between layers of the organic semiconductor material.12-03-2009
20100213450PHOSPHOR ELEMENT AND DISPLAY DEVICE - A phosphor element is provided with a first electrode and a second electrode. The electrodes are arranged to face each other, and at least one of the electrodes is transparent or semi-transparent. The phosphor element is also provided with a phosphor layer, which is sandwiched between the first electrode and the second electrode and has phosphor particles dispersed in a medium made of a hole transport material. Conductive nano particles are held on the surface of each of the phosphor particles.08-26-2010
20100213442SEMICONDUCTOR DEVICE - Provided is a semiconductor device comprising an organic semiconductor element A and an organic semiconductor element B, wherein 08-26-2010
20100213443Oled devices - An OLED device having an emission layer formed of an ambipolar phosphine oxide host material and a dopant, a hole transport layer in electrical communication with an anode, an electron transport layer in communication with a cathode, wherein the HOMO energy of the hole transport layer is substantially the same as the HOMO energy of the ambipolar host in the emission layer, and the LUMO energy of the electron transport layer is substantially the same as the LUMO energy of the ambipolar host in the emission layer.08-26-2010
20100224868Light Emitting Device - The present invention provides a TFT that has a channel length particularly longer than that of an existing one, specifically, several tens to several hundreds times longer than that of the existing one, and thereby allowing turning to an on-state at a gate voltage particularly higher than the existing one and driving, and allowing having a low channel conductance gd. According to the present invention, not only the simple dispersion of on-current but also the normalized dispersion thereof can be reduced, and other than the reduction of the dispersion between the individual TFTs, the dispersion of the OLEDs themselves and the dispersion due to the deterioration of the OLED can be reduced.09-09-2010
20100213455CONDUCTING FORMULATION - The invention relates to novel formulations comprising an organic semiconductor (OSC) and a conductive additive, to their use as conducting inks for the preparation of organic electronic (OE) devices, especially organic photovoltaic (OPV) cells, to methods for preparing OE devices using the novel formulations, and to OE devices and OPV cells prepared from such methods and formulations.08-26-2010
20100276680ORGANIC LIGHT EMITTING DISPLAY HAVING A GAS VENT GROOVE TO DEREASE EDGE OPEN FAILURES - An Organic Light Emitting Display (OLED) and its fabrication method has a pixel defining layer provided on a first electrode which is formed with a gas vent groove to allow gas to vent when the pixel defining layer is being formed, so that gas is not left in a pixel but vented when a donor film is laminated by a Laser-Induced Thermal Imaging (LITI) method, thereby decreasing edge open failures.11-04-2010
20100276679ORGANIC THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING THE ORGANIC THIN FILM TRANSISTOR, AND DISPLAY APPARATUS USING THE SAME - Provided are an organic semiconductor structure and a method of manufacturing the same, an organic thin film transistor (OTFT) using the organic semiconductor structure and a method of manufacturing the OTFT, and a display apparatus using the same. The OTFT includes: an oxide layer formed on a base substrate; a source electrode on the oxide layer, wherein the source electrode includes a first source electrode portion and a second source electrode portion; a drain electrode on the oxide layer, wherein the drain electrode includes a first drain electrode portion and a second drain electrode portion; an organic layer pattern having an opening that exposes the first source electrode portion and the first drain electrode portion; an organic semiconductor pattern electrically connected to the first source electrode portion and the first drain electrode portion through the opening, wherein the organic semiconductor pattern has a conductive or an insulating property depending on an applied electric field in a location; a gate insulating layer covering the organic semiconductor pattern; and a gate electrode formed on the gate insulating layer corresponding to the organic semiconductor pattern.11-04-2010
20100276677ORGANIC LIGHT-EMITTING DEVICE - Disclosed is an organic light-emitting device (OLED), wherein a lower electrode, an organic emitting unit, an upper electrode, and a light enhance layer are subsequently formed between a bottom substrate and a top substrate. The light enhance layer has higher refractive index, between 11-04-2010
20100276681DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A display device includes an insulating substrate; a plurality of gate wires formed on the insulating substrate, the plurality of gate wires including a gate electrode; a gate insulating layer covering the plurality of gate wires; a transparent electrode layer formed on the gate insulating layer, the transparent electrode layer including a source electrode and a drain electrode disposed about the gate electrode and spaced apart from each other to define a channel region disposed therebetween; a plurality of data wires covering a predetermined portion of the transparent electrode layer and being crossed insulatedly with the plurality of gate wires to define pixels; and an organic semiconductor layer formed on the channel region for each pixel, a predetermined portion of the organic semiconductor layer being operatively connected with the source electrode, the drain electrode, and the gate electrode to form a transistor having an improved characteristic and a novel structure.11-04-2010
20100276676Image Display Panel And Image Display Apparatus - An image display panel includes a gate electrode; a gate insulating film over the gate electrode; a source electrode, a drain electrode, and a first adhesive on the gate insulating film; an organic semiconductor layer on the source and drain electrodes including a space; an interlayer insulating film covering the gate insulating film, source electrode, organic semiconductor layer, and part of the drain electrode; a conductive layer on the interlayer insulating film; a second adhesive formed over the interlayer insulating film and conductive layer; an image display medium on the second adhesive; an inorganic film on the image display medium and first adhesive; and a second substrate on the inorganic film, where the first adhesive is arranged outside the second adhesive between the display medium and the conductive layer, and forms bonding between the inorganic film and the gate insulating film having a hydrophilic treatment formed on the first substrate.11-04-2010
20100276673Organic compound, and organic photoelectric device including the same - Disclosed is an organic compound that easily dissolves in an organic solvent, and that is applicable as a host material of an emission layer of an organic photoelectric device since it emits fluorescence and phosphorescence at a red wavelength through a blue wavelength. The organic compound according to one embodiment of the present invention is represented by Chemical Formula 1.11-04-2010
20100276672ORGANIC ELECTROLUMINESCENT DEVICE AND DISPLAY MEDIUM - An organic electroluminescent device includes: a pair of electrodes including a positive electrode and a negative electrode, at least one of the electrodes being transparent or semi-transparent; and an organic compound layer including one or more layers interposed between the pair of electrodes, at least one layer included in the organic compound layer containing one or more compounds represented by the following formula (I):11-04-2010
20100276671OLED DISPLAY WITH A COMMON ANODE AND METHOD FOR FORMING THE SAME - A pixel for an organic light emitting diode (OLED) display and a method for forming such a pixel is provided. The pixel includes a substrate, a transistor formed over the substrate, and an OLED formed over the substrate. The transistor includes a gate, a source, and a drain. The OLED includes an anode, an emissive layer formed over the anode, and a cathode formed over the emissive layer. The cathode is electrically connected to the drain of the transistor.11-04-2010
20100276670PHOTOELECTRIC DEVICE, IMAGING DEVICE, AND PHOTOSENSOR - A photoelectric device includes a photoelectric conversion layer containing an organic compound having a partial structure represented by the following formula (I) :11-04-2010
20100237329VINYL-BASED POLYMER WITH SILICON OR/AND TIN AND ORGANIC LIGHT EMISSION DIODE USING - Disclosed herein is a vinyl-based polymer with silicon and/or tin for an organic layer of an OLED. The polymer is soluble in an organic solvent and can emit fluorescent and phosphorescent light from red to blue wavelengths so as to be used for a host material of an organic light emitting layer in the OLED.09-23-2010
20100237330ORGANIC ELECTROLUMINESCENT COMPOUND AND ORGANIC LIGTH EMITTING DIODE USING THE SAME - The present invention relates to novel organic electroluminescent compounds and organic light emitting diodes comprising the same. Since the organic electrolumescent compounds according to the invention have good luminous efficiency and life property as an electroluminescent material, OLED's having very good operation lifetime can be produced.09-23-2010
20100213456Organic Electroluminescence Display Device - An organic electroluminescence display device is disclosed wherein plural organic electroluminescence elements each having an anode, a cathode and an organic layer sandwiched in between the anode and the cathode, the plural organic electroluminescence elements including organic electroluminescence elements developing different colors in a row direction, and at least one of the organic layers having an outer edge of a conic section at an end portion in a column direction thereof, the outer edge of the conic section becoming narrower gradually in its width in a row direction of vapor deposition thereof toward an extreme end at an end portion in a column direction thereof. The organic electroluminescence display device can improve the vapor deposition accuracy and the degree of design freedom.08-26-2010
20100213451EMISSIVE POLYMERS AND DEVICES INCORPORATING THESE POLYMERS - The present invention relates to a class of luminescent and conductive polymer compositions having chromophores, and particularly solid films of these compositions exhibiting increased luminescent lifetimes, quantum yields and amplified emissions. These desirable properties can be provided through polymers having rigid groups designed to prevent polymer reorganization, aggregation or π-stacking upon solidification. These polymers can also display an unusually high stability with respect to solvent and heat exposures. The invention also relates to a sensor and a method for sensing an analyte through the luminescent and conductive properties of these polymers. Analytes can be sensed by activation of a chromophore at a polymer surface. Analytes include aromatics, phosphate ester groups and in particular explosives and chemical warfare agents in a gaseous state. The present invention also relates to devices and methods for amplifying emissions by incorporating a polymer having an energy migration pathway and/or providing the polymer as a block co-polymer or as a multi-layer.08-26-2010
20100213449ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND PRODUCTION METHOD THEREOF - The present invention provides an organic electroluminescent display device including an electroluminescent element with a reduced leakage current and also provides a production method thereof. The present invention is an organic electroluminescent display device including an electroluminescent element, 08-26-2010
20100213444ORGANIC SEMICONDUCTOR AND ORGANIC THIN-FILM TRANSISTOR - To provide an organic semiconductor of tetrathiafulvalene derivative and an organic thin-film transistor formed therefrom, the tetrathiafulvalene derivative being readily formed into a stable thin film and the organic thin-film transistor having a high mobility and being driven at a low threshold voltage, an organic semiconductor includes a hexamethylenetetrathiafulvalene compound represented by the formula (1) below, and an organic thin-film transistor having a thin film obtained therefrom08-26-2010
20100213446BUFFER BILAYERS FOR ELECTRONIC DEVICES - The present invention relates to buffer bilayers, and their use in electronic devices. The bilayer has a first layer including at least one electrically conductive polymer doped with at least one highly-fluorinated acid polymer. The second layer is a reacted layer from a metal which can be one or more transition metals, Group 13 metals, Group 14 metals, or lanthanide metals.08-26-2010
20110210317TOP EMISSION ORGANIC LIGHT EMITTING DEVICE - A top emission organic light emitting device including a metal reflective layer, a first electrode, a first intermediate layer including a charge-transfer complex, a second intermediate layer including a fullerene-based material or a fluorine-containing compound, an emission layer, and a second electrode.09-01-2011
20100224867ELECTRONIC DEVICES COMPRISING STRUCTURED ORGANIC FILMS - An electronic device comprising a structured organic film with an added functionality comprising a plurality of segments and a plurality of linkers arranged as a covalent organic framework, wherein the structured organic film may be a multi-segment thick structured organic film.09-09-2010
20100224866TERNARY EMISSIVE LAYERS FOR LUMINESCENT APPLICATIONS - There is provided an organic light emitting diode having an anode, a hole transport layer containing a material having an ionization potential IP09-09-2010
20100224865ORGANIC TRANSISTOR, ORGANIC TRANSISTOR ARRAY AND DISPLAY APPARATUS - A disclosed organic transistor includes a substrate; a gate electrode; a gate insulating film; source-drain electrodes; and an organic semiconductor layer. The gate electrode and the gate insulating film are disposed on the substrate in the stated order, and the source-drain electrodes and the organic semiconductor layer are disposed at least on the gate insulating film in the stated order. At least one of the source-drain electrodes includes a first part disposed directly above the gate electrode, a second part disposed not over the gate electrode, and a connecting part which has a width smaller than a width of the first part and connects the first part and the second part.09-09-2010
20100224864Organic light emitting diode and method for manufacturing the same - An organic light emitting diode (OLED) and a method for manufacturing the same are disclosed, wherein the method comprises following steps: (a) providing a substrate having a first conductive layer; (b) providing a precursor and polymerizing the precursor by plasma to form a fluorocarbon polymer layer or a fluorocarbon copolymer layer on the first conductive layer of the substrate; (c) forming an organic light emitting structure on the fluorocarbon polymer layer or a fluorocarbon copolymer layer; and (d) forming a second conductive layer on the organic light emitting structure. The hole injection efficiency of the OLED can be improved by the method of the present invention. Hence, the current density of the OLED can be greatly increased.09-09-2010
20100001266Thin film transistor, method of fabricating the same, and organic light emitting diode display device including the same - A thin film transistor includes a substrate, a buffer layer on the substrate, a semiconductor layer on the buffer layer, a gate insulating layer on the semiconductor layer, a gate electrode on the gate insulating layer, an interlayer insulating layer on the entire surface of the substrate having the gate electrode, a first contact hole and a second contact hole, and source and drain electrodes on the interlayer insulating layer, insulated from the gate electrode, and having a portion connected with the semiconductor layer through the first contact hole. An organic light emitting diode display may include the thin film transistor along with a passivation layer on the entire surface of the substrate, and a first electrode, an organic layer, and a second electrode, which are on the passivation layer and electrically connected with the source and drain electrodes.01-07-2010
20100230670DEVICE CONTAINING COMPOUND HAVING INDOLOCARBAZOLE MOIETY AND DIVALENT LINKAGE - An electronic device including a compound comprising at least one type of an optionally substituted indolocarbazole moiety and at least one divalent linkage.09-16-2010
20100237337ORGANIC TRANSISTOR AND METHOD FOR PRODUCING THE SAME - An organic transistor comprising:09-23-2010
20100001262Anthracene Derivatives, Organic Electronic Devices Using Anthracene Derivatives, and Electronic Apparatuses Comprising Organic Electronic Device - Disclosed in an anthracene derivative, an organic electronic device using the anthracene derivative, and an electronic apparatus including the organic electronic device. The anthracene derivative is capable of being used as a hole injecting material, a hole transporting material, an electron injecting material, an electron transporting material, and a light emitting material in an organic electronic device including an organic light emitting device. In particular, the anthracene derivative is capable of being used alone as a light emitting material and a host or a dopant in a host/dopant system. The organic electronic device is excellent in views of efficiency, driving voltage, life time, and stability.01-07-2010
20100237341ORGANIC ELECTROLUMINESCENCE ELEMENT - An organic electroluminescence element having a cathode as a top electrode, and excelling in luminance efficiency, drive voltage, and operational life is provided. The organic electroluminescence element includes an anode over a substrate and a luminescent layer over the anode. The luminescent layer comprises an organic material. An electron injection layer is over the luminescent layer for injecting electrons into the luminescent layer. The electron injection layer is a metal including at least one of an alkaline metal and an alkaline earth metal. A fullerene layer is over the electron injection layer and includes fullerenes and at least one of an alkaline metal and an alkaline earth metal. The at least one of the alkaline metal and the alkaline earth metal included in the fullerene layer has a lower work function than a lowest unoccupied molecular orbit energy level of the fullerenes. A cathode is over the fullerene layer.09-23-2010
20100237336NANOTUBE ENABLED, GATE-VOLTAGE CONTROLLED LIGHT EMITTING DIODES - Embodiments of the invention relate to vertical field effect transistor that is a light emitting transistor. The light emitting transistor incorporates a gate electrode for providing a gate field, a first electrode comprising a dilute nanotube network for injecting a charge, a second electrode for injecting a complementary charge, and an electroluminescent semiconductor layer disposed intermediate the nanotube network and the electron injecting layer. The charge injection is modulated by the gate field. The holes and electrons, combine to form photons, thereby causing the electroluminescent semiconductor layer to emit visible light. In other embodiments of the invention a vertical field effect transistor that employs an electrode comprising a conductive material with a low density of states such that the transistors contact barrier modulation comprises barrier height lowering of the Schottky contact between the electrode with a low density of states and the adjacent semiconductor by a Fermi level shift.09-23-2010
20100237327SMECTIC LIQUID CRYSTAL COMPOUND - According to the present invention, a liquid crystal semiconductor capable of exhibiting a highly ordered smectic phase at approximately room temperature, being used for formation of a smectic liquid crystal thin film that is stable at room temperature by a solution process, and showing excellent ambipolar charge-transporting properties, a thin film transistor comprising the same, and the like are provided.09-23-2010
20100237331ANODE FOR AN ORGANIC ELECTRONIC DEVICE - There is provided an anode for an organic electronic device. The anode is a conducting inorganic material having an oxidized surface layer. The surface layer is non-conductive and hole-transporting.09-23-2010
20100237335MULTICOLOR DISPLAY APPARATUS - In a multicolor display apparatus in which each of light emitting devices of three colors R, G and B has the same thickness from a reflection position of a reflection electrode to an organic emission layer, an organic emission layer of the R device and an organic emission layer of the B device each have electron transport property whereas an organic emission layer of the G device has hole transport property; and an optical distance (L) from the reflection position of the reflection electrode to an emission position of the organic emission layer in the light emitting devices of three colors satisfies 0.25×λR09-23-2010
20100237332ORGANIC SEMICONDUCTOR TRANSISTOR - An organic semiconductor transistor has plural electrodes and an organic semiconductor layer including at least one compound represented by the following Formula (I). In Formula (I), each R is independently a hydrogen atom or an alkyl group; and n and m are each independently an integer of from 1 to 3.09-23-2010
20080230768THIN FILM TRANSISTOR AND ORGANIC LIGHT EMITTING DEVICE INCLUDING THIN FILM TRANSISTOR - The present invention relates to a thin film transistor. The thin film transistor includes a semiconductor having first, second, third, fourth, and fifth electrode regions arranged in a direction and spaced apart from each other and first, second, third, and fourth offset regions disposed between the first, second, third, fourth, and fifth electrode regions, respectively. An input electrode is connected to the third electrode region, an output electrode is connected to the first and fifth electrode regions, an insulating layer is disposed on the semiconductor, and a control electrode is disposed on the insulating layer and the second and fourth electrode regions.09-25-2008
20100237333ORGANIC COMPONENT VERTICALLY EMITTING WHITE LIGHT - The invention relates to an organic component emitting white light upward having an electrode (09-23-2010
20100237340DIODE EMPLOYING WITH CARBON NANOTUBE - A diode includes an organic composite plate, a first electrode and a second electrode. The organic composite plate includes a first portion, a second portion and a plurality of carbon nanotubes distributed therein. The carbon nanotubes in the first portion have a first band gap and the carbon nanotubes in the second portion have a second band gap. The first band gap and the second band gap are different from each other. The first electrode is electrically connected to the first portion. The second electrode electrically is connected to the second portion.09-23-2010
20120138910Light-Emitting Element, Light-Emitting Device, and Electronic Device - It is an object of the present invention to provide a light-emitting element with high light emission efficiency and with a long lifetime. A light-emitting device comprises a first electrode, a second electrode, a light-emitting layer, a first layer, and a second layer, wherein the first layer is provided between the light-emitting layer and the first electrode, the second layer is provided between the light-emitting layer and the second electrode, the first layer is a layer for controlling the hole transport, the second layer is a layer for controlling the electron transport, and light emission from the light-emitting layer is obtained when voltage is applied to the first electrode and the second electrode so that potential of the first electrode is higher than potential of the second electrode.06-07-2012
20100243994TRANSPARENT NONVOLATILE MEMORY THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - Provided are a transparent nonvolatile memory thin film transistor (TFT) and a method of manufacturing the same. The memory TFT includes source and drain electrodes disposed on a transparent substrate. A transparent semiconductor thin layer is disposed on the source and drain electrodes and the transparent substrate interposed between the source and drain electrodes. An organic ferroelectric thin layer is disposed on the transparent semiconductor thin layer. A gate electrode is disposed on the organic ferroelectric thin layer in alignment with the transparent semiconductor thin layer. Thus, the transparent nonvolatile memory TFT employs the organic ferroelectric thin layer, the oxide semiconductor thin layer, and auxiliary insulating layers disposed above and below the organic ferroelectric thin layer, thereby enabling low-cost manufacture of a transparent nonvolatile memory device capable of a low-temperature process.09-30-2010
20100243995ORGANIC SEMICONDUCTOR TRANSISTOR, METHOD OF PRODUCING THE SAME, AND ELECTRONIC DEVICE - An organic semiconductor transistor has plural electrodes and an organic semiconductor layer containing at least one compound represented by the following Formula (I). In Formula (I), each R09-30-2010
20100244005ORGANIC EL APPARATUS, METHOD OF MANUFACTURING ORGANIC EL APPARATUS, ELECTRONIC APPARATUS - Provided is an organic EL apparatus including: an organic EL panel including organic EL devices; a heat releasing member; and a pair of film sheets of which at least one is transparent, wherein the organic EL panel and the heat releasing member overlap and are interposed and encapsulated by the pair of film sheets in a state where a portion of the heat releasing member is exposed outside the pair of film sheets.09-30-2010
20100244000ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM LIGHT-EMITTING TRANSISTOR - The present invention aims to provide an organic thin film transistor that is superior in stability in the atmosphere and that has a high operation speed. The organic thin film transistor according to the present invention includes three kinds of terminals consisting of a gate electrode, a source electrode, and a drain electrode, an insulator layer that insulates the gate electrode from the source electrode and from the drain electrode, and an organic semiconductor layer; the terminals, the insulator layer, and the organic semiconductor layer being disposed on a substrate; the organic thin film transistor controlling a source-to-drain electric current by a voltage applied to the gate electrode, and the organic thin film transistor is characterized by further including a crystallinity control layer that is formed from a crystalline compound that controls crystallinity of the organic semiconductor layer, and is characterized in that the organic semiconductor layer is formed on the crystallinity control layer and contains a compound having heterocyclic groups or a compound having a quinone structure. The organic thin film light-emitting transistor according to the present invention is characterized in that either one of the source electrode and the drain electrode of the organic thin film transistor is formed of a hole-injecting electrode, and the other electrode is formed of an electron-injecting electrode.09-30-2010
20100244013COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Disclosed is an organic electroluminescent device (organic EL device) which is improved in luminous efficiency, fully secured of driving stability, and of simple constitution. Also disclosed is a compound useful for the fabrication of said organic electroluminescent device. This compound for organic electroluminescent device is a bipyrimidyl compound which has a basic skeleton of 2,2′-bipyrimidyl and is substituted by an aromatic hydrocarbon group, an aromatic heterocyclic group, or a substituted amino group. The aforementioned organic electroluminescent device has a light-emitting layer between an anode and a cathode which are piled one upon another on a substrate and the light-emitting layer contains a phosphorescent dopant and the aforementioned bipyrimidyl compound as a host material.09-30-2010
20100244015ORGANIC SEMICONDUCTOR DEVICE, MANUFACTURING METHOD OF SAME, ORGANIC TRANSISTOR ARRAY, AND DISPLAY - A major object of the present invention is to provide an organic semiconductor device which is provided with an organic semiconductor transistor having good transistor performance and is producible with high productivity. To achieve the object, the present invention provides an organic semiconductor device comprising: a substrate; a source electrode and a drain electrode which are formed on the substrate; an insulation partitioned part which is formed on the source electrode and the drain electrode, made of an insulation material, formed such that an opening part of the insulation partitioned part is disposed above a channel region formed by the source electrode and the drain electrode and has a function as an interlayer-insulation layer; an organic semiconductor layer which is formed in the opening part of the insulation partitioned part and on the source electrode and the drain electrode, and made of an organic semiconductor material; a gate insulation layer which is formed on the organic semiconductor layer and made of an insulation resin material; and a gate electrode formed on the gate insulation layer, wherein; the insulation partitioned part has a height ranging from 0.1 μm to 1.5 μm.09-30-2010
20100252818PHOSPHAPHENANTHRENE COMPOUNDS AND ORGANIC LIGHT EMITTING DIODE USING THE SAME - The present invention relates to new phosphaphenanthrene compounds with excellent light emitting property and an organic light emitting diode (OLED) using the same.10-07-2010
20100252822PHOSPHORESCENT POLYMER COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - Phosphorescent polymer compounds of the invention have high light-emitting efficiency and long luminescent life. Organic electroluminescence devices have the phosphorescent polymer compounds.10-07-2010
20100252824Hybrid Molecular Electronic Devices Containing Molecule-Functionalized Surfaces for Switching, Memory, and Sensor Applications and Methods for Fabricating Same - This invention is generally related to a method of making a molecule-surface interface comprising at least one surface comprising at least one material and at least one organic group wherein the organic group is adjoined to the surface and the method comprises contacting at least one organic group precursor with at least one surface wherein the organic group precursor is capable of reacting with the surface in a manner sufficient to adjoin the organic group and the surface. The present invention is directed to hybrid molecular electronic devices having a molecule-surface interface. Such hybrid molecular electronic devices may advantageously have either a top or bottom gate electrode for modifying a conductivity of the devices.10-07-2010
20120193619ORGANIC ELECTROLUMINESCENT ELEMENT AND LIGHTING DEVICE USING SAME - An organic EL element having a high productivity and a multi-unit structure is produced by using an organic EL material which can meet the demands of an increased area and high productivity, uses a high-speed process at atmospheric pressure, that is, the non-discharge type coating process, and which has a high process adaptability. An organic electroluminescent element is provided, between a plurality of light-emitting units, with a charge generating layer which generates a hole and an electron by applying an electric field, wherein the charge generating layer comprises one or more layers, at least one layer of which is formed by means of the non-discharge type solution coating process, and the plurality of light-emitting units are formed by means of the non-discharge type solution coating process.08-02-2012
20100001263POLYMER COMPOUND AND LIGHT EMITTING DEVICE USING THE SAME - A polymer compound comprising a repeating unit of the following formula (1) and having a polystyrene-reduced number average molecular weight of 1×1001-07-2010
20120193611CURABLE MATERIAL AND ITS APPLICATION - A curable material is provided. The curable material has the structure of formula I or formula II:08-02-2012
20080277650ORGANIC PHOTODETECTOR AND FABRICATING METHOD OF ORGANIC PHOTODETECTOR AND ORGANIC THIN FILM TRANSISTOR - An organic photodetector including a substrate, a first electrode, an insulation layer, an organic layer, and a second electrode is provided. The first electrode is disposed on the substrate. The insulation layer is disposed on the first electrode. The organic layer is disposed on the substrate and the insulation layer and covers a side surface of the insulation layer and a side surface of the first electrode. The second electrode is disposed on the organic layer and located above the insulation layer.11-13-2008
20110006293DEVICES DERIVED FROM ELECTRICALLY CONDUCTIVE POLYMERS - Organic electronic devices derived from electrically conductive polymer compositions having a pH greater than 1.8 and a hole transporting material are described.01-13-2011
20110006292PROCESSES FOR FORMING ELECTRONIC DEVICES AND ELECTRONIC DEVICES FORMED BY SUCH PROCESSES - A process for forming an electronic device includes forming a first layer over a substrate, wherein the first layer includes an organic layer, and depositing a second layer over the substrate after forming the first layer, wherein depositing the second layer is performed using ion beam sputtering. In another embodiment, a process for forming an electronic device includes placing a workpiece within a depositing chamber of a depositing apparatus, wherein the workpiece includes a substrate and an organic layer overlying the workpiece. The process includes generating a plasma within a plasma-generating chamber of the depositing apparatus, wherein the plasma is not in direct contact with the workpiece. The process also includes sending an ion beam from the plasma-generating chamber towards a target within the depositing chamber, wherein the target includes a material, and depositing a layer of the material over the organic layer.01-13-2011
20100244002ORGANIC LIGHT-EMITTING DIODE - An organic light-emitting diode includes an anode and a cathode separately arranged from each other, and an emission layer between the anode and the cathode, the emission layer including a single host material and a light-emitting material, the emission layer including, when the host material has a hole transport property, a doped region on a cathode side to which an electron transport material is doped and an undoped region on an anode side to which an electron transport material is not doped, or the emission layer including, when the host material has an electron transport property, a doped region on an anode side to which a hole transport material is doped and an undoped region on a cathode side to which a hole transport material is not doped.09-30-2010
20100243992ORGANIC ELECTROLUMINESCENCE DEVICE - [Problem to be Solved by the Invention] An organic electroluminescence device having a longer drive life is provided.09-30-2010
20100140603BLUE LIGHT EMITTING COMPOUND AND ORGANIC LIGHT EMITTING DIODE DEVICE COMPRISING THE SAME - A blue light emitting compound is provided. The blue light emitting compound has a structure of the following Chemical Formula 1:06-10-2010
20100140602ORGANIC ELECTROLUMINESCENCE DEVICE - There is provided an organic electroluminescence device comprising a pair of electrodes on a substrate and at least one organic layer containing a luminescence layer between the electrodes, the luminescence layer comprising at least 3 luminescence materials different in luminescent color, and the at least 3 luminescence materials being platinum complexes.06-10-2010
20100140601POLYMER COMPOUND AND METHOD FOR PRODUCING THE SAME, AND LIGHT-EMITTING MATERIAL, LIQUID COMPOSITION, THIN FILM, POLYMER LIGHT-EMITTING DEVICE, SURFACE LIGHT SOURCE, DISPLAY DEVICE, ORGANIC TRANSISTOR AND SOLAR CELL, EACH USING THE POLYMER COMPOUND - Disclosed is a polymer compound containing a repeating unit represented by the following general formula (1). (In the formula, R06-10-2010
20080308790Organic Siloxane Film, Semiconductor Device Using the Same, Flat Panel Display Device, and Raw Material Liquid - Disclosed is materials design for prolonging the duration of the low relative dielectric constant of an organic siloxane film having a low relative dielectric constant. Specifically, in an organic siloxane film having a relative dielectric constant of not more than 2.1, the elemental ratio of carbon to silicon in the film is set to not less than 0.10 and not more than 0.55.12-18-2008
20120193616Organic Electroluminescent Device - An organic electroluminescence device of the present invention adapts a new concept in its configuration to improve its efficiency in addition to obtain a high reliability and good yielding. The organic electroluminescent device having an electroluminescent film containing an organic material capable of causing an electroluminescence and being arranged between a first electrode and a second electrode, includes: a carrier, generation layer, which is a floating electrode, is embodied in the electroluminescent film; an insulting film between the first electrode and the electroluminescent film, and an insulating film between the second electrode and the electroluminescent film, wherein the organic electroluminescent device is driven by an alternating current bias.08-02-2012
20120193614HOST MATERIAL FOR LIGHTING DEVICES - Optionally substituted bispyridinylbenzene compounds useful in light-emitting devices include, but are not limited to, 1,3-bis(5-(9H-carbazol-9-yl)pyridin-3-yl)benzene and 9,9′-(5,5′-(5-methyl-1,3-phenylene)bis(pyridine-5,3-diyl))bis(9H-carbazole).08-02-2012
20120193613HETEROCYCLIC COMPOUND - Provided is a novel heterocyclic compound which can be used for a light-emitting element, as a host material of a light-emitting layer in which a light-emitting substance is dispersed. A heterocyclic compound represented by a general formula (G1) is provided. In the formula, A represents any of a substituted or unsubstituted dibenzothiophenyl group, a substituted or unsubstituted dibenzofuranyl group, and a substituted or unsubstituted carbazolyl group, R08-02-2012
20120187382ELECTRONIC DEVICES HAVING LONG LIFETIME - An organic light-emitting diode is provided having an anode, a cathode, and an organic active layer therebetween. The organic active layer includes a deuterated compound and the device has a calculated half-life at 1000 nits of at least 5000 hours.07-26-2012
20120187380SEMICONDUCTOR COMPOSITION - A thin film transistor has a semiconducting layer comprising a polythiophene and carbon nanotubes. The semiconducting layer exhibits high mobility and high current on/off ratio.07-26-2012
20100127248STACKED ORGANIC LIGHT-EMITTING DEVICE AND IMAGING APPARATUS AND IMAGE DISPLAY APPARATUS HAVING THE SAME - A stacked organic light-emitting device having a first organic compound layer and a second organic compound layer stacked on a substrate includes: a first light-emitting device in which the first organic compound layer is sandwiched between a first electrode and a second electrode; and a second light-emitting device in which the second organic compound layer is sandwiched between the second electrode and a third electrode. An electrode of a TFT circuit which is electrically connected to the third electrode is formed on the substrate in a region different from a region in which the first light-emitting device and the second light-emitting device emit light. In order to prevent the third electrode which extends to the electrode of the TFT circuit from being electrically connected to the second electrode, the second organic compound layer is formed so as to cover an end portion of the second electrode.05-27-2010
20100244008 COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE SAME - The present invention provides a novel compound that is capable of largely improving lifespan, efficiency, electrochemical stability and thermal stability of the organic light emitting device, and an organic light emitting device in which the compound is included in an organic compound layer.09-30-2010
20100244016DISPLAY SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - In a manufacturing method of a display substrate according to one or more embodiments, a plurality of thin films are patterned by using a photoresist film pattern having different thicknesses in each area on a substrate as etch masks. The photoresist film pattern may be etch-backed at least twice during the manufacturing process of the display substrate and may be used as the etch mask for patterns having shapes different from each other. Accordingly, the number of processes for manufacturing the mask patterns, which may be formed by a photolithography method in order to pattern the thin films formed on the substrate, may be reduced.09-30-2010
20100244011ORGANIC EL DEVICE, COLOR FILTER, AND ORGANIC EL DISPLAY - An organic EL device includes an organic EL emitter (09-30-2010
20100244003Semiconductor Device and Light-Emitting Device - The present invention provides a semiconductor device by which a light-emitting device that is unlikely to cause defects such as a short circuit, can be manufactured. One feature of a semiconductor device of the present invention is to include an electrode that serves as an electrode of a light-emitting element. The electrode includes a first layer and a second layer. Further, end portions of the electrode are covered with a partition layer having an opening portion. Moreover, a part of the electrode is exposed by the opening portion of the partition layer. One feature of a semiconductor device of the present invention is to include an electrode that serves as an electrode of a light-emitting element and a transistor. The electrode and the transistor are connected electrically to each other. The electrode includes a first layer and a second layer. Further, end portions of the electrode are covered with a partition layer having an opening portion. Moreover, the second layer is exposed by the opening portion of the partition layer.09-30-2010
20100244001MEGAHERTZ ORGANIC/POLYMER DIODES AND METHODS RELATED THERETO - Featured is an organic/polymer diode having a first layer composed essentially of one of an organic semiconductor material or a polymeric semiconductor material and a second layer formed on the first layer and being electrically coupled to the first layer such that current flows through the layers in one direction when a voltage is applied in one direction. The second layer is essentially composed of a material whose characteristics and properties are such that when formed on the first layer, the diode is capable of high frequency rectifications on the order of megahertz rectifications such as for example rectifications at one of above 100 KHz, 500 KhZ, IMHz, or 10 MHz. In further embodiments, the layers are arranged so as to be exposed to atmosphere.09-30-2010
20100244009ORGANIC ELECTROLUMINESCENT DEVICES COMPRISING AZOMETHINE-METAL COMPLEXES - The present invention relates to phosphorescent organic electroluminescent devices which contain as a matrix material of emitting layer, metal complexes of the formula (I)09-30-2010
20100243998SEMICONDUCTOR MATERIAL AND ORGANIC RECTIFIER DIODE - A semiconductor material and an organic rectifier diode can be used for organic-based RFID (Radio Frequency Identification) tags. The semiconducting material for an organic diode has a metal complex as a p-dopant for doping a hole-conducting organic matrix material, wherein the metal complex is a metal complex with Lewis acid properties, which acts as an electron pair acceptor.09-30-2010
20100243997ORGANIC ELECTROLUMINESCENCE DEVICE AND ITS MANUFACTURING METHOD - An organic electroluminescence device includes: a first electrode layer; an insulating film arranged on the first electrode layer; an organic layer that is arranged on the insulating film, and is in contact with the first electrode layer at an opening portion provided in the insulating film; a second electrode layer arranged on the organic layer; and a metal layer that is in contact with an end surface of the organic layer and an end surface of the second electrode layer, and is arranged on the second electrode layer.09-30-2010
20100243996Optical device having solvate and manufacturing method thereof - The present invention discloses a manufacturing method for an optical device having a solvate, comprising the following steps: providing a substrate, depositing a solute on the substrate, and placing the substrate in the vapor environment of a solvent such that the solvent and the solute on the substrate form a solvate exhibiting optical properties. Furthermore, the present invention provides an optical device having a solvate, which modulates the photoluminescence (PL) intensity of the optical device via the solvate. The optical device is obtained by means of the above-described manufacturing method.09-30-2010
20100244010ORGANIC EL DEVICE, COLOR FILTER, AND ORGANIC EL DISPLAY - An organic EL device includes an organic EL emitter (09-30-2010
20100252819ELECTROACTIVE MATERIALS - A compound having at least two diarylamino moieties and at least 10% deuteration.10-07-2010
20100252825Light-Emitting Device and Electronic Devices - The present invention provides a lightweight, thin light-emitting device having a new structure which has a plurality of display screens. Further, the invention provides a dual emission type display device which can perform a pure black display and can achieve high contrast. According to the invention, at least, both electrodes of a light-emitting element (an anode and a cathode of a light-emitting element) are highly light-transmitting at the same level, and a polarizing plate or a circularly polarizing plate is provided, thereby conducting a pure black display that is a state of no light-emission and enhancing the contrast. Moreover, unevenness of color tones in displays of the both sides, which is a problem of a full-color dual emission type display device structure, can be solved according to the invention.10-07-2010
20100252823ORGANIC ELECTROLUMINESCENT DEVICE AND DISPLAY APPARATUS - An organic electroluminescent device includes an anode; a cathode; an organic layer including a light-emitting layer and disposed between the anode and the cathode; and an electron transport layer constituting the organic layer, disposed between the cathode and the light-emitting layer, and having a stacked structure including a layer containing a benzimidazole derivative and a layer containing a dibenzimidazole derivative represented by general formula (10-07-2010
20100140607Light Emitting Element and Light Emitting Device Using the Element - An object of the present invention is to provide a high-efficiency white light emitting element having a spectrum in a wide wavelength range. Another object is to provide a white light emitting element in which chromaticity of white color is hard to change over time. Still another object is to provide a white light emitting element in which the shape of an emission spectrum does not tend to depend on current density. A first light emitting element 06-10-2010
20100140600THIN FILM TRANSISTORS INCORPORATING INTERFACIAL CONDUCTIVE CLUSTERS - A field effect transistor includes a thin layer of discontinuous conductive clusters between the gate dielectric and the active layer. The active layer can include an organic semiconductor or a blend of organic semiconductor and polymer. Metals, metal oxides, predominantly non-carbon metallic materials, and/or carbon nanotubes may be used to form the layer of conductive clusters. The conductive clusters improve transistor performance and also facilitate transistor fabrication.06-10-2010
20100140605ORGANIC ELECTROLUMINESCENCE DEVICE AND LUMINESCENCE APPARATUS - The invention provides an organic EL device including a pair of electrodes and at least one luminescent layer between the pair of electrodes, the at least one luminescent layer including at least two phosphorescent materials, an electrically inert material, and a charge-transporting material, the at least two phosphorescent materials being selected from a blue phosphorescent material having a luminescence peak in a range of from 420 nm to less than 500 nm, a green phosphorescent material having a luminescence peak in a range of from 500 nm to less than 570 nm, or a red phosphorescent material having a luminescence peak in a range of from 570 nm to 650 nm. The invention also provides a luminescence apparatus including the above organic EL device.06-10-2010
20100140604ORGANIC LIGHT-EMITTING DEVICE - A light-emitting layer emits light having an emission spectrum having a primary peak in the range of wavelengths of 430 to 480 nm. The light-emitting layer contains a host compound and a dopant compound. The dopant compound has an electron affinity of 2.93 eV or more higher that is than the host compound. The dopant compound in the lowest excited triplet state has an energy of 1.95 eV or less that is lower than the host compound in the lowest excited triplet state. The dopant compound has a smaller band gap than the host compound. The dopant compound is a hydrocarbon compound.06-10-2010
20100140594ORGANIC OPTOELECTRONIC COMPONENT - An organic optoelectronic component is provided, which includes a first electrode, an active layer formed on the first electrode, a second intermediate layer formed on the active layer, and a second electrode formed on the second intermediate layer, wherein the second intermediate layer is formed with a second mixture containing a second polymer and at least a second organic molecule. The second organic molecule is one for forming hole transferring material, electron transferring material, electron blocking material or hole blocking material. The organic optoelectronic component of the present invention is prepared by a solution process, thereby simplifying the process, improving film-formation property, and enhancing component efficiency.06-10-2010
20120138912BISCARBAZOLE DERIVATIVE, MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A biscarbazole derivative of the invention is represented by a formula (1) below.06-07-2012
20120138906CAPTURE AGENTS FOR UNSATURATED METAL COMPLEXES - Compounds that act as capture agents to sequester unsaturated metal complexes are provided. In particular, the compounds may be host materials, dopant materials, or co-dopant materials containing functional groups, such as an isocyanide or a phosphine group, which are suitable for trapping an unsaturated coordination complex. These compounds may be used in organic light emitting devices, particularly blue devices, to provide improved device lifetime.06-07-2012
20120138913Electrically conductive nanostructures, method for making such nanostructures, electrically conductive polumer films containing such nanostructures, and electronic devices containing such films - A polymer film that contains a mixture of (i) an electrically conductive polymer, and (ii) anisotropic electrically conductive nanostructures, is disclosed, as well as a polymer composition that contains (a) a liquid carrier, (b) an electrically conductive polymer dissolved or dispersed in the liquid carrier, and (c) anisotropic electrically conductive nanostructures dispersed in the liquid carrier, and a method for making polymer film, that includes the steps of: (1) forming a layer of a polymer composition that contains (a) a liquid carrier, (b) one or more electrically conductive polymers dissolved or dispersed in the liquid carrier, and (c) anisotropic electrically conductive nanostructures dispersed in the liquid carrier, and (2) removing the liquid carrier from the layer.06-07-2012
20120138904ORGANIC ELECTROLUMINESCENCE DISPLAY AND PRODUCTION METHOD THEREOF - An organic electroluminescence display includes a substrate, a first electrode layer formed on the substrate, a first light emitting layer formed on the first electrode layer and emitting light with a first wavelength, a second light emitting layer formed to overlap at least a part thereof with the first light emitting layer and emitting light with a second wavelength longer than the first wavelength, and a second electrode layer formed on the first or second light emitting layer.06-07-2012
20100127244Blends of Fullerene Derivatives, and Uses Thereof in Electronic Devices - Disclosed are compositions of mixed fullerene derivatives with utility in organic semiconductors, and methods of making and using such compositions. In certain embodiments, the present invention relates to compositions of mixed fullerene derivatives further comprising one or more additional fullerene-based components within specified ranges. In certain other embodiments, the invention relates to methods of producing mixed fullerene derivatives of a specific composition from mixed fullerene starting materials, or pure fullerene derivatives of a specific composition from mixed fullerene derivatives. In yet other embodiments, the invention relates to semiconductors and devices comprising a composition of the invention.05-27-2010
20110057184COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) that is improved in the luminous efficiency, fully secured of the driving stability, and of a simple structure and disclosed also is a compound useful therefor. The organic EL device comprises a light-emitting layer disposed between an anode and a cathode piled one upon another on a substrate and the said light-emitting layer comprises a phosphorescent dopant and an indolocarbazole derivative as a host material. The indolocarbazole derivative is represented by the following formula (3) wherein Ar is an aromatic group and L is a direct bond or an aromatic group.03-10-2011
20110057183LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD OF LIGHT-EMITTING DEVICE - The present invention provides a light-emitting element and a light-emitting device which have high contrast, and specifically, provides a light-emitting device whose contrast is enhanced, not by using a polarizing plate but using a conventional electrode material. Reflection of external light is suppressed by provision of a light-absorbing layer included between a non-light-transmitting electrode and a light-emitting layer. As the light-absorbing layer, a layer is used, which is obtained by adding a halogen atom into a layer including an organic compound and a metal oxide. Further, the light-absorbing layer is formed also over a region in which a thin film transistor for driving a light-emitting element is formed, a region in which a wiring is formed, and the like, and thus light is extracted from the side opposite to the region in which the TFT is formed, thereby reducing reflection of external light.03-10-2011
20110057182ANTHRACENE DERIVATIVES AND ORGANIC ELECTROLUMINESCENT DEVICE USING SAME - Provided are a novel anthracene derivative and an organic light-emitting device using the same, and more particularly, an anthracene derivative having a core (e.g., an indenoanthracene core) where an anthracene moiety with excellent device characteristics is fused with a fluorene moiety or the like with excellent fluorescent properties, wherein an aryl group is introduced at the core, and an organic light-emitting device using the anthracene derivative, which is enhanced in efficiency, operating voltage, lifetime, etc.03-10-2011
20110057181Organic light emitting diode display - An organic light emitting diode (OLED) display includes a substrate main body, a thin film transistor formed on the substrate main body, and an OLED formed on the substrate main body. The thin film transistor includes a gate electrode, an oxide semiconductor layer disposed on the gate electrode in an insulated manner, and source and drain electrodes respectively contacting the oxide semiconductor layer. Parts of the source and drain electrodes contacting the oxide semiconductor layer are separated from the gate electrode in a direction that is parallel with the substrate main body by a predetermined distance.03-10-2011
20110057180ORGANIC LIGHT-EMITTING DIODE - According to one embodiment, an organic light-emitting diode includes an anode and a cathode arranged apart from each other, an emission layer, arranged between the anode and cathode, containing a host material of polyvinyl(2,7-difluorocarbazole), a blue-emitting phosphorescent material, and an electron transport material, and a hole transport layer of polyvinylcarbazole arranged adjacent to the emission layer on an anode side.03-10-2011
20110057179Light-Emitting Element, Light-Emitting Device, Lighting Device, and Electronic Device - A light-emitting element is provided, in which n (n is a natural number of two or more) EL layers are provided between an anode and a cathode. Between the m-th (in is a natural number, 1≦m≦n−1) EL layer and the (m+1)-th EL layer, a first layer containing any of an alkali metal, an alkaline earth metal, a rare earth metal, an alkali metal compound, an alkaline earth metal compound, and a rare earth metal compound, a second layer containing a substance having high electron-transport properties in contact with the first layer, and a charge-generation layer containing a substance having high hole-transport properties and an acceptor substance in contact with the second layer are provided in this order over the anode. The charge-generation layer does not have a peak of an absorption spectrum in a visible light region.03-10-2011
20110057178Light-Emitting Element, Light-Emitting Device, and Method for Manufacturing the Same - Disclosed is a light-emitting element which includes a first light-emitting layer over and in contact with a hole-transport layer and a second light-emitting layer over and in contact with the first light-emitting layer. The first and the second light-emitting layers contain a bipolar host material and an emissive guest material. The guest material in the first light-emitting layer has a lower ability for capturing a hole than a guest material in the second light-emitting layer; therefore, the hole-transport property of the first light-emitting layer can be controlled to be higher than that of the second light-emitting layer. The difference in hole-transport property between the first and second light-emitting layers allows a recombination region to be widely spread in the light-emitting layers. An anti-reducing material may be provided in the hole-transport layer, which prevents the hole-transport layer from being reduced by electrons which fail to undergo recombination in the light-emitting layers.03-10-2011
20110057177ORGANIC LIGHT EMITTING DEVICE - Embodiments of the present invention are directed to a heterocyclic compound and an organic light-emitting device including the heterocyclic compound. The organic light-emitting devices using the heterocyclic compounds have high-efficiency, low driving voltage, high luminance and long lifespan.03-10-2011
20110057176ORGANIC LUMINESCENT DEVICE AND A PRODUCTION METHOD FOR THE SAME - Disclosed is an organic light emitting device comprising a first electrode, two or more organic compound layers, and a second electrode, wherein the first electrode comprises a conductive layer and an n-type organic compound layer which is in contact with the conductive layer, one of the organic compound layers interposed between the n-type organic compound layer of the first electrode and the second electrode is a p-type organic compound layer forming an NP junction together with the n-type organic compound layer of the first electrode, energy levels of the layers satisfy the following Expressions (1) and (2), and one or more layers interposed between the p-type organic compound layer and the second electrode are n-doped with alkali earth metal:03-10-2011
20110057175ORGANIC LIGHT EMITTING DEVICE - Embodiments of the present invention are directed to a heterocyclic compound and an organic light-emitting device including the heterocyclic compound. The organic light-emitting devices using the heterocyclic compounds have high-efficiency, low driving voltage, high luminance and long lifespan.03-10-2011
20110057174SEALING MATERIAL AND DISPLAY DEVICE USING THE SAME - Disclosed are a sealing material including an inorganic particle, an organic binder, and a fiber-phased material, and a display device including the seal material.03-10-2011
20110057173DEUTERATED COMPOUNDS FOR ELECTRONIC APPLICATIONS - This invention relates to deuterated aryl-anthracene compounds that are useful in electronic applications. It also relates to electronic devices in which the active layer includes such a deuterated compound.03-10-2011
20110057171Long lifetime Phosphorescent Organic Light Emitting Device (OLED) Structures - An organic light emitting device is provided having an emissive layer with an internal interface. The concentration of a second phosphorescent material in a second organic layer is different from the concentration of a first phosphorescent material in a first organic layer, creating the interface. The materials in the first and second organic layers may be the same or different. In addition to this interface within the emissive layer, the device has one or more features designed to mitigate failure mechanisms which may be associated with electrons or excitons passing from the cathode through the emissive layer to damage organic layers on the anode side of the emissive layer. In addition, devices are provided having an interface within the emissive layer as described above, and a lower energy emissive material on at least one side of the interface.03-10-2011
20110057170SOLUTION PROCESSED ELECTRONIC DEVICES - There is provided a process for forming an organic electronic device. The process includes the steps of providing a TFT substrate;03-10-2011
20090032811FUNCTIONALIZATION OF POLY(ARYLENE-VINYLENE) POLYMERS FOR ELECTRONIC DEVICES - A method is provided for modifying a poly(arylene vinylene) or poly(heteroarylene vinylene) precursor polymer having dithiocarbamate moieties by reacting it with an acid and further optionally reacting the acid-modified polymer with a nucleophillic agent. Also provided are novel polymers and copolymers bearing nucleophillic side groups which are useful as components of electronic devices, e.g. in the form of thin layers.02-05-2009
20090026445Organic thin film transistor array panel and method for manufacturing the same - A method for manufacturing an organic thin film transistor array panel includes forming a data line including a source electrode and a drain electrode apart from the data line on a substrate and forming a bank insulating layer including a first opening and a second opening on the data line and the drain electrode. An organic semiconductor is formed in the first opening, sequential deposition is performed of an insulating material layer and a metal layer on the bank insulating layer and the organic semiconductor. A first passivation layer is formed on the metal layer which is etched using the first passivation layer as an etch mask to form a gate line including a gate electrode. The insulating material layer is etched using the first passivation layer as an etch mask to form a gate insulating layer. A second passivation layer is formed on the first passivation layer and a pixel electrode is formed on the second passivation layer.01-29-2009
20100012929ORGANIC THIN FILM TRANSISTOR DEVICE AND ORGANIC THIN FILM LIGHT-EMITTING TRANSISTOR - An organic thin film transistor including a substrate having thereon at least three terminals of a gate electrode, a source electrode and a drain electrode, an insulator layer and an organic semiconductor layer, with a current between a source and a drain being controlled upon application of a voltage to the gate electrode, wherein the organic semiconductor layer includes a compound having a specified structure; and an organic thin film light emitting transistor utilizing an organic thin film transistor, wherein the organic thin film transistor is one in which light emission is obtained utilizing a current flowing between the source and the drain, and the light emission is controlled upon application of a voltage to the gate electrode, and is made high with respect to the response speed (driving speed) and has a large ON/OFF ratio, are provided.01-21-2010
20090278118BENZOFLUORANTHENE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE USING THE COMPOUND - There are provided a novel benzofluoranthene compound and an organic light-emitting device which uses the benzofluoranthene compound, gives a blue emission hue with extremely good purity, and has an optical output with a high efficiency, a high luminance, and a long life. Specifically, there are provided a benzofluoranthene compound represented by the general formula shown below and an organic light-emitting device including a pair of electrodes including an anode and a cathode one of which is a transparent or translucent electrode material, and an organic compound layer disposed between the pair of electrodes and including a material for an organic light-emitting device containing the benzofluoranthene compound.11-12-2009
20090278117ORGANIC THIN FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME, AND BIOSENSOR USING THE TRANSISTOR - An organic thin film transistor (OTFT), a method of manufacturing the same, and a biosensor using the OTFT are provided. The OTFT includes a gate electrode, a gate insulating layer, source and drain electrodes, and an organic semiconductor layer disposed on a substrate and further includes an interface layer formed between the gate insulating layer and the organic semiconductor layer by a sol-gel process. The gate insulating layer is formed of an organic polymer, and the interface layer is formed of an inorganic material. The OTFT employs the interface layer interposed between the gate insulating layer and the organic semiconductor layer so that the gate insulating layer can be protected from the exterior and adhesion of the gate insulating layer with the organic semiconductor layer can be improved, thereby increasing driving stability. Also, since the OTFT can use a plastic substrate, the manufacture of the OTFT is inexpensive so that the OTFT can be used as a disposable biosensor.11-12-2009
20110127515PHOTOELECTRIC CONVERSION ELEMENT - Disclosed is a photoelectric conversion element comprising a pair of electrodes, at least one of which is transparent or translucent, and a photoactive layer provided between the electrodes, wherein the photoactive layer contains an electron donating compound and an electron accepting compound, and the electron donating compound or the electron accepting compound is a polymer compound having a repeating unit represented by the following formula (I), and the proportion of the repeating unit represented by the formula (I) is the highest among all of the repeating units contained in the polymer compound:06-02-2011
20090014715ORGANIC TRANSISTOR, ORGANIC TRANSISTOR ARRAY, AND DISPLAY APPARATUS - An off-current is reduced in an organic transistor, with which an organic transistor array is formed. A display apparatus is constructed using the organic transistor array. The organic transistor includes a substrate, a gate electrode, a separating electrode, a gate insulating film, a source electrode, a drain electrode, and an organic semiconductor layer. The organic transistor has a region in which the separating electrode and the organic semiconductor layer are laminated. A power supply is connected to the separating electrode.01-15-2009
20090309093COMPOSITE MATERIAL, AND LIGHT EMITTING ELEMENT AND LIGHT EMITTING DEVICE USING THE COMPOSITE MATERIAL - An object is to provide a light emitting element with low drive voltage which contains an organic compound and an inorganic compound. One feature of a light emitting element of the present invention is to include a layer containing a light emitting material between a pair of electrodes, in which the layer containing a light emitting material has a layer containing a carbazole derivative represented by General Formula (1) and an inorganic compound which exhibits an electron accepting property to the carbazole derivative represented by General Formula (1). With such a structure, the inorganic compound accepts electrons from the carbazole derivative, carriers are generated internally, and a drive voltage of the light emitting element can be reduced.12-17-2009
20090001354HETEROCYCLOALKYL-SUBSTITUTED NAPHTHALENE-BASED TETRACARBOXYLIC DIIMIDE COMPOUNDS AS N-TYPE SEMICONDUCTOR MATERIALS FOR THIN FILM TRANSISTORS - A thin film transistor comprises a layer of organic semiconductor material comprising a tetracarboxylic diimide naphthalene-based compound having, attached to one or both of the imide nitrogen atoms, a substituted or unsubstituted heterocycloalkyl ring system. Such transistors can further comprise spaced apart first and second contacts or electrodes in contact with said material. Further disclosed is a process for fabricating an organic thin-film transistor device, preferably by sublimation deposition onto a substrate, wherein the substrate temperature is no more than 200° C.01-01-2009
20120193615ORGANIC EL ELEMENT AND PRODUCTION METHOD THEREOF - A technology having resistance to moisture and oxygen, and in which the occurrence and expansion of non-light-generating portions, such as dark spots, are suppressed is provided. An organic EL element in which an organic functional layer including at least one or more light-emitting layers is arranged between a first electrode and a second electrode, wherein the organic functional layer includes a bipolar charge generation layer which generates electrons and holes, and one of the first electrode and the second electrode is a hole-receiving electrode.08-02-2012
20090321723ORGANIC ELECTRONIC MATERIAL, ORGANIC ELECTRONIC DEVICE, AND ORGANIC ELECTROLUMINESCENT DEVICE - An object of the present invention is to provide an organic electronic material that can be easily formed into a multilayer structure. A further object of the present invention is to provide an organic electronic device and an organic EL device that exhibit a better emission efficiency and a better emission lifetime than heretofore achieved. In order to achieve these objects, an organic electronic material is provided, the material includes a polymer or oligomer that has at least one polymerizable substituent and a hole-transporting repeat unit.12-31-2009
20090321722STACKED ELECTRO-OPTICALLY ACTIVE ORGANIC DIODE WITH INORGANIC SEMICONDUCTOR CONNECTION LAYER - A stacked electro-optically active organic diode has an anode electrode (12-31-2009
20120068170MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention describes indenocarbazole derivatives having electron- and hole-transporting properties, in particular for use in the emission and/or charge-transport layer of electroluminescent devices or as matrix material. The invention furthermore relates to a process for the preparation of the compounds according to the invention and to electronic devices comprising same.03-22-2012
20090189151METHOD FOR SEPARATING A NON-EMISSION REGION FROM A LIGHT EMISSION REGION WITHIN AN ORGANIC LIGHT EMITTING DIODE (OLED) - The present invention relates to a method for separating at least one non-emission region (07-30-2009
20090321725ORGANIC EL DEVICE AND MANUFACTURING METHOD THEREOF - An organic EL device comprising a semiconductor element A having a source electrode, a drain electrode, and a gate electrode, a semiconductor element B having a source electrode, a drain electrode, and a gate electrode connected to the source electrode or the drain electrode of the semiconductor element A, and an organic EL element having a pixel electrode connected to the drain electrode of the semiconductor element B, in which the source electrode and the drain electrode of the semiconductor element A and the gate electrode of the semiconductor element B are set on the same plane.12-31-2009
20090321724Material for Producing a Functional Layer of an Organic Electronic Component - The invention relates to a material for producing a functional layer of an organic electronic component, in particular a material suitable for processing by printing. In the material proposed according to the invention, a functional substance is present in a polymer matrix, e.g. in dissolved or suspended fashion.12-31-2009
20090152532FIELD EFFECT TRANSISTOR, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC DEVICE USING THE SAME - A field-effect transistor includes a semiconductor layer (06-18-2009
20090114909DEVICE CONTAINING POLYMER HAVING INDOLOCARBAZOLE- REPEAT UNIT AND DIVALENT LINKAGE - An electronic device comprising a polymer comprising at least one type of repeat unit comprising at least one type of an optionally substituted indolocarbazole moiety and at least one divalent linkage.05-07-2009
20090114908ORGANIC SEMICONDUCTOR THIN FILM, ORGANIC THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING ORGANIC THIN FILM TRANSISTOR - Disclosed is an organic semiconductor thin film having excellent coating property and high carrier mobility. Also disclosed are an organic thin film transistor using such an organic semiconductor thin film, and a method for manufacturing such an organic thin film transistor. Specifically disclosed is an organic semiconductor thin film formed on a substrate subjected to a surface treatment. This organic semiconductor thin film is characterized in that a surface treating agent used in the surface treatment has a terminal structure represented by a specific general formula.05-07-2009
20100219405NOVEL ARYLAMINE POLYMER, METHOD FOR PRODUCING THE SAME, INK COMPOSITION, FILM, ELECTRONIC DEVICE, ORGANIC THIN-FILM TRANSISTOR, AND DISPLAY DEVICE - A polymer containing a repeating unit expressed by General Formula (I): General Formula (I) where Ar1 represents a substituted or unsubstituted aromatic hydrocarbon group; Ar2 and Ar3 each independently represent a divalent group of a substituted or unsubstituted aromatic hydrocarbon group; and R1 and R2 each independently represent a hydrogen atom, substituted or unsubstituted alkyl group, or substituted or unsubstituted aromatic hydrocarbon group.09-02-2010
20100219407ORGANIC METAL COMPLEX, AND ORGANIC LIGHT EMITTING DEVICE AND DISPLAY APPARATUS USING THE SAME - Provided is an organic metal complex having a structure represented by the following general formula (1):09-02-2010
20100219397TRANSITION METAL COMPLEX COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE USING SAME - Disclosed is a transition metal complex compound having a specific structure including a crosslinked stricture. Further, disclosed is an organic electroluminescence device including an organic thin film formed of one or more layers including at least a light-emitting layer, the organic thin film layer being interposed between a pair of electrodes. In this organic electroluminescence device, at least one layer of the organic thin film contains the transition metal complex compound and has high luminous efficiency and emits blue light. In addition, disclosed is the transition metal complex compound enables to realize the organic electroluminescence device.09-02-2010
20090114907FIELD EFFECT TYPE ORGANIC TRANSISTOR AND PROCESS FOR PRODUCTION THEREOF - A field effect type organic transistor is provided which comprises a source electrode, a drain electrode, and a gate electrode, a gate insulating layer, and an organic semiconductor layer, wherein the gate insulating layer contains an optical anisotropic material having an anisotropic structure formed by light irradiation, and the organic semiconductor layer is in contact with the anisotropic structure.05-07-2009
20110108817Light Emitting Device - By doping an organic compound functioning as an electron donor (hereinafter referred to as donor molecules) into an organic compound layer contacting a cathode, donor levels can be formed between respective LUMO (lowest unoccupied molecular orbital) levels between the cathode and the organic compound layer, and therefore electrons can be injected from the cathode, and transmission of the injected electrons can be performed with good efficiency. Further, there are no problems such as excessive energy loss, deterioration of the organic compound layer itself, and the like accompanying electron movement, and therefore an increase in the electron injecting characteristics and a decrease in the driver voltage can both be achieved without depending on the work function of the cathode material.05-12-2011
20090039344POLY[BIS(ETHYNYL)HETEROACENE]S AND ELECTRONIC DEVICES GENERATED THEREFROM - An electronic device comprising a polymer of Formula or Structure (I)02-12-2009
20110108807POLYMER FOR OPTOELECTRONIC DEVICE - A polymer useful in an optoelectronic device comprises structural unit of formula I:05-12-2011
20100219408SENSOR MATRIX WITH SEMICONDUCTOR COMPONENTS - The invention relates to a sensor matrix (09-02-2010
20100219400ORGANIC ELECTROLUMINESCENT DEVICE - Provided is an organic electroluminescence device, including: an anode; a cathode; and organic thin film layers provided between the anode and the cathode, in which: the organic thin film layers have a light emitting layer, and have a hole injecting layer and a hole transporting layer, or a hole injecting/transporting layer on a side which is closer to the anode than the light emitting layer is; the hole injecting layer or the hole injecting/transporting layer contains an aromatic amine derivative having a specific substituent, and the hole transporting layer or the hole injecting/transporting layer contains an aromatic amine derivative having a specific substituent.09-02-2010
20100219402THIN FILM TRANSISTOR AND METHOD FOR PRODUCING THE SAME - The present invention provides a method of manufacturing a thin film transistor of a top-contact structure with suppressed deterioration by a process which is easy and suitable for increase in area without damaging an organic semiconductor pattern. The organic semiconductor pattern is formed on a substrate. An electrode material film is formed on the substrate so as to cover the organic semiconductor pattern. A resist pattern is formed on the electrode material film. By wet etching using the resist pattern as a mask, the electrode material film is patterned. By the process, a source electrode and a drain electrode are formed.09-02-2010
20080283828Organic semiconductor polymer having liquid crystal properties, organic active layer, organic thin film transistor, and electronic device including the same, and methods of fabricating the same - Example embodiments relate to an organic semiconductor polymer, in which fused thiophenes having liquid crystal properties and aromatic compounds having N-type semiconductor properties are alternately included in the main chain of the polymer, an organic active layer, an organic thin film transistor (OTFT), and an electronic device including the same, and methods of preparing the organic semiconductor polymer, and fabricating the organic active layer, the OTFT and the electronic device using the same. This organic semiconductor polymer has improved organic solvent solubility, processability, and thin film properties, and may impart increased charge mobility and decreased off-state leakage current when applied to the channel layer of the organic thin film transistor.11-20-2008
20100219406USE OF ACRIDINE DERIVATIVES AS MATRIX MATERIALS AND/OR ELECTRON BLOCKERS IN OLEDS - The present invention relates to the use of (hetero)aryl-substituted acridine derivatives as matrix materials in a light-emitting layer of organic light-emitting diodes (OLEDs) and/or in a blocking layer for electrons in organic light-emitting diodes. The present invention further relates to a light-emitting layer which comprises at least one emitter material and at least one matrix material, wherein the matrix material used is at least one (hetero)aryl-substituted acridine derivative, and to an organic light-emitting diode which comprises at least one inventive light-emitting layer, to an organic light-emitting diode which comprises at least one acridine derivative of the formula (I) in a blocking layer for electrons, and to a device selected from stationary and mobile visual display units and illumination units which comprise at least one inventive organic light-emitting diode.09-02-2010
20100219398BOTTOM EMISSION TYPE ORGANIC ELECTROLUMINESCENT PANEL - Provided is a bottom emission type organic EL panel capable of preventing or delaying loss of light emission from an end portion of the light emission area and reduction of the light emission area in an organic EL element. This organic electro luminescence panel includes an organic electro luminescence element having at least one organic layer between an anode and a cathode arranged on a substrate. This panel has a main light emission area emitting light with a high luminance and a non-light emission area or a low light emission area emitting light with a lower luminance than the main light emission area, arranged outside the end portion of the main light emission area. By limiting the main light emission area to a smaller size than the cathode forming area, the end portion of the cathode forming area is arranged outside the end portion of the main light emission area.09-02-2010
20090072230GAS-BARRIER FILM AND ORGANIC DEVICE COMPRISING SAME - A gas-barrier film comprising at least one silicon hydronitride layer and at least one silicon nitride layer on a surface of a flexible supporting substrate. The film has an excellent gas-barrier property.03-19-2009
20090072228ORGANIC THIN FILM TRANSISTOR SUBSTRATE AND METHOD OF MANUFACTURE - An organic thin film transistor substrate includes a gate electrode formed on a substrate, a gate insulation layer formed on the gate electrode to have a source-connecting portion and a drain-seating groove, a source electrode formed in the source-connecting portion, a drain electrode formed in the drain-seating groove and an organic semiconductor layer contacting the gate insulation layer, the source electrode and the drain electrode.03-19-2009
20090072226DISPLAY DEVICE HAVING ORGANIC THIN FILM TRANSISTOR - Provided is a display device having an organic TFT. The display device includes the organic TFT on a substrate, a passivation layer covering the organic TFT, and a bank layer on the passivation layer. At this point, at least one of the passivation layer and the bank layer is formed of a material blocking light incident from a portion on the substrate to the organic TFT.03-19-2009
20090072227ORGANIC COMPOUND CRYSTAL AND FIELD-EFFECT TRANSISTOR - A field-effect transistor includes a channel-forming region composed of an organic compound crystal including π-electron conjugated molecules each containing chalcogen atoms as a constituent, wherein the distance between chalcogen atoms of adjacent π-electron conjugated molecules is short, and the organic compound crystal has a periodic structure in which π-electron conjugated molecules are two-dimensionally or three-dimensionally linked together.03-19-2009
20080230775Organic light emitting display device and method for manufacturing the same - An organic light emitting display device and a method for manufacturing the same are disclosed. The method for manufacturing the organic light emitting display device includes forming a switching element and a silicon nitride layer over a substrate, patterning and removing a portion of the silicon nitride layer formed on a light emitting region through which light is transmitted, forming an overcoat layer formed on the silicon nitride layer, wherein a portion of the overcoat layer corresponding to the light emitting region has a thickness of about 1.1 μm to about 2.1 μm, forming a first electrode electrically connected to the switching element over the light emitting region, and sequentially forming an organic light emitting layer and a second electrode on the first electrode.09-25-2008
20080230771THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - It is made possible to provide a thin film transistor having transistor characteristics that do not widely vary. A thin film transistor includes: a substrate; a pair of insulating layers formed at a distance from each other on the substrate; a source electrode formed on one of the insulating layers, and a drain electrode formed on the other one of the insulating layers; a semiconductor layer formed to cover the source electrode, the drain electrode, and the substrate; a gate insulating film formed on the semiconductor layer; and a gate electrode formed on the gate insulating film.09-25-2008
20080230770ORGANIC LIGHT-EMITTING DISPLAY PANEL AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display panel having a storage capacitor comprised of a storage electrode overlapping a power line with a first gate-insulating layer disposed therebetween, wherein the storage capacitor includes a groove portion formed on a lateral side of the power line overlapping the storage electrode so that the overlapping area of the power line and the storage electrode is kept constant, and a method of manufacturing the same.09-25-2008
20110049487HETEROARYLAMINE COMPOUND AND ORGANIC LUMINESCENCE DEVICE USING THE SAME - Embodiments of the present invention are directed to heteroarylamine compounds and organic luminescence devices including the heteroarylamine compounds. The organic luminescence devices using the heteroarylamine compounds have high-efficiency, low driving voltages, high luminance and long lifetimes.03-03-2011
20130181191ELECTRONIC DEVICES INCLUDING BIO-POLYMERIC MATERIAL AND METHOD FOR MANUFACTURING THE SAME - An electronic device including a bio-polymer material and a method for manufacturing the same are disclosed. The electronic device of the present invention comprises: a substrate; a first electrode disposed on the substrate; a bio-polymer layer disposed on the first electrode, wherein the bio-polymeric material is selected from a group consisting of wool keratin, collagen hydrolysate, gelatin, whey protein and hydroxypropyl methylcellulose; and a second electrode disposed on the biopolymer material layer. The present invention is suitable for various electronic devices such as an organic thin film transistor, an organic floating gate memory, or a metal-insulator-metal capacitor.07-18-2013
20110108821ORGANIC ELECTROLUMINESCENT DEVICE - The present invention relates to white emitting organic electroluminescent devices having at least one blue fluorescent emitter layer.05-12-2011
20090108254Fabrication Method for Organic Electronic Device and Organic Electronic Device Fabricated by the Same Method - The present invention provides a fabrication method for an organic electronic device comprising a step of stacking sequentially a first electrode made of a metal, one or more organic material layers, and a second electrode on a substrate, wherein the method comprises the steps of: 1) forming a layer on the first electrode using a metal having a higher oxidation rate than the first electrode before forming the organic material layer, 2) treating the layer formed using a metal having a higher oxidation rate than the first electrode with oxygen plasma to form a metal oxide layer, and 3) treating the metal oxide layer with inert gas plasma to remove a native oxide layer on the first electrode, and an organic electronic device fabricated by the same method.04-30-2009
20100301321Tunable Diode - Tunable diodes and methods of making.12-02-2010
20100295030FUSED AROMATIC DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A fused aromatic derivative shown by the following formula (1):11-25-2010
20100295029BENZOCHRYSENE DERIVATIVE AND AN ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A fused aromatic ring derivative shown by the following formula (1):11-25-2010
20100295034SEMICONDUCTOR DEVICE - It is an object of the present invention to provide a semiconductor device in which data can be written except when manufacturing the semiconductor device and that counterfeits can be prevented. Moreover, it is another object of the invention to provide an inexpensive semiconductor device including a memory having a simple structure. The semiconductor device includes a field effect transistor formed over a single crystal semiconductor substrate, a first conductive layer formed over the field effect transistor, an organic compound layer formed over the first conductive layer, and a second conductive layer formed over the organic compound layer, and a memory element includes the first conductive layer, the organic compound, and the second conductive layer. According to the above structure, a semiconductor device which can conduct non-contact transmission/reception of data can be provided by possessing an antenna.11-25-2010
20130181190NOVEL HETEROLEPTIC IRIDIUM COMPLEXE - Novel heteroleptic iridium complexes are disclosed. The complexes contain a phenyl pyridine ligand and another ligand containing a dibenzofuran, dibenzothiophene, dibenzoselenophene, or carbazole linked to an imidazole or benzimidazole fragment. These complexes are useful materials when incorporated into OLED devices.07-18-2013
20100295035Electro Luminescence Display Device and Method of Testing the Same - To increase the proportion of the perfects to the whole lot of final products and to reduce the cost for active matrix EL display devices by checking the operation of a TFT substrate before depositing an EL material. A capacitor for testing is connected to a drain terminal of a driving TFT in a pixel portion to observe charging and discharging of the capacitor. Whether the driving TFT is normal or not is judged by the observation, so that the rejects can be removed before the manufacturing process is completed.11-25-2010
20100295032METAL COMPLEXES WITH BORON-NITROGEN HETEROCYCLE CONTAINING LIGANDS - Novel organic compounds comprising ligands containing a boron-nitrogen heterocycle are provided. In particular, the compound is a metal complex comprising a ligand containing an azaborine. The compounds may be used in organic light emitting devices to provide devices having improved photophysical and electronic properties.11-25-2010
20100295036STRUCTURE FOR MAKING SOLUTION PROCESSED ELECTRONIC DEVICES - There is provided a process for forming an organic electronic device wherein a TFT substrate having a non-planar surface has deposited over that substrate a planarization layer such that a substantially planar substrate, or planarized substrate, is formed. A multiplicity of thin first electrode structures having a first thickness and having tapered edges with a taper angle of no greater than 75° are formed over the planarized substrate. A multiplicity of active layers is formed over the planarized substrate. Then a buffer layer is formed by liquid deposition of a composition comprising a buffer material in a first liquid medium. The buffer layer has a second thickness which is at least 20% greater than the first thickness. A chemical containment pattern defining pixel openings is then formed over the buffer layer. A composition comprising a first active material in a second liquid medium is deposited into at least a portion of the pixel openings. Then a second electrode is formed.11-25-2010
20100295026ORGANIC ELECTROLUMINESCENT ELEMENT, DISPLAY DEVICE AND LIGHTING DEVICE - Disclosed is an organic electroluminescent element containing organic layers sandwiched between an anode and a cathode, wherein the organic layers incorporates an emission layer A containing a host compound A and at least two types of emission dopants, and an emission layer B containing a host compound B and at least one type of emission dopant, provided that at least one of the emission dopants contained in the emission layer A is a phosphorescence-emitting material.11-25-2010
20100295028Method of Fabricating an Electronic Device - A method of fabricating an electronic device comprises providing a layer structure (11-25-2010
20090039342Thin film field-effect transistor and process for producing the same - Such a thin film transistor and a process for producing the same are provided that is capable of preventing the FET characteristics from being deteriorated with a short channel length. Such a thin film field-effect transistor and a process for producing the same are provided that contains a substrate 02-12-2009
20100301313BENZANTHRACENE COMPOUND AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A compound having the following structure as at least a part thereof:12-02-2010
20100301316LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - An object is to provide a light-emitting element in which suppression of a drive voltage increase is achieved. Another object is to provide a light-emitting device that has reduced power consumption by including such a light-emitting element. In a light-emitting element having an EL layer between an anode and a cathode, between the cathode and the EL layer, a first layer capable of carrier generation is formed in contact with the cathode, a second layer which accepts and transports the electrons generated in the first layer is formed in contact with the first layer, and a third layer which injects the electrons accepted from the second layer into the EL layer is formed in contact with the second layer.12-02-2010
20100301323Organic memory device using iridium organometallic compound and fabrication method thereof - Disclosed are a composition comprising a mixture of at least one iridium organometallic compound and an electrically conductive polymer, an organic active layer comprising the same, an organic memory device comprising the organic active layer and methods for fabricating the same. The organic memory device may include a first electrode, a second electrode and the organic active layer between the first and second electrodes. The organic memory device possesses the advantages of rapid switching time, decreased operating voltage, decreased fabrication costs, increased reliability and improved non-volatility.12-02-2010
20100301317LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - An object is to provide a light-emitting element capable of emitting light with a high luminance even at a low voltage, and having a long lifetime. The light-emitting element includes n EL layers between an anode and a cathode (n is a natural number of two or more), and also includes, between m-th EL layer from the anode and (m+1)-th EL layer (m is a natural number, 1≦m≦n−1), a first layer including a first donor material in contact with the m-th EL layer, a second layer including an electron-transport material and a second donor material in contact with the first layer, and a third layer including a hole-transport material and an acceptor material in contact with the second layer and the (m+1)-th EL layer.12-02-2010
20130134397Sealed Structure, Light-Emitting Device, Electronic Device, and Lighting Device - A sealed structure with high sealing capability, in which a pair of substrates is attached to each other with a glass layer is provided. The sealed structure has a first and second substrates, a first surface of the first substrate facing a first surface of the second substrate, and the glass layer which is in contact with the first and second substrates, defines a space between the first and second substrates, and is provided along the periphery of the first surface of the first substrate. The first substrate has a corner portion. The area of the first surface of the first substrate is smaller than or equal to that of the first surface of the second substrate. In at least one of respective welded regions between the glass layer and the first or second substrate, the width of the corner portion is larger than that of the side portion.05-30-2013
20110248254QUINOXALINE DERIVATIVE, AND LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE USING THE QUINOXALINE DERIVATIVE - It is an object to provide a novel bipolar organic compound. In particular, it is an object to provide a bipolar organic compound excellent in thermal stability. Further, it is another object to provide a bipolar organic compound which is electrochemically stable. A quinoxaline derivative represented by a general formula (1) is provided. Further, since the quinoxaline derivative represented by the general formula (1) is bipolar, the use of the quinoxaline derivative of the present invention allows fabrication of a light-emitting element and a light-emitting device with a low driving voltage and low power consumption. Furthermore, a light-emitting element with high luminous efficiency can be obtained.10-13-2011
20100301312ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device including: an anode (12-02-2010
20100301319ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescence device including an anode, an emitting layer, a blocking layer, an electron-injecting layer and a cathode in sequential order; wherein the emitting layer contains a host and a dopant which gives fluorescent emission of which the main peak wavelength is 550 nm or less; the affinity Ad of the dopant is smaller than the affinity Ah of the host; the triplet energy E12-02-2010
20100301318ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescence device including at least an anode, an emitting layer, an electron-transporting region and a cathode in sequential order, wherein the emitting layer contains a host and a dopant which gives fluorescent emission of which the main peak wavelength is 550 nm or less; the affinity Ad of the dopant is equal to or larger than the affinity Ah of the host; the triplet energy E12-02-2010
20100301315ORGANIC ELECTROLUMINESCENCE ELEMENT - To provide an organic electroluminescence element, containing: an anode; a cathode; and at least one organic layer disposed between and the anode and the cathode, the organic layer containing a light-emitting layer, wherein the light-emitting layer contains a host material and a phosphorescent light-emitting material, and the host material contains at least one platinum complex compound containing a tetradentade ligand, expressed by the following general formula 1:12-02-2010
20110127514DISPLAY DEVICE AND METHOD FOR MANUFACTURING DISPLAY DEVICE - A display device comprises: a metal substrate (06-02-2011
20100308312PHOTOELECTRIC CONVERSION DEVICE, PRODUCTION METHOD THEREOF AND IMAGING DEVICE - Provided is a photoelectric conversion device comprising an electrically conductive film, a photoelectric conversion film, and a transparent electrically conductive film, wherein said photoelectric conversion film contains a crystallized fullerene or fullerene derivative, and said crystallized fullerene or fullerene derivative is oriented in the (111) direction perpendicularly to the film surface of said electrically conductive film.12-09-2010
20100308322COMPOUND HAVING PYRIDOINDOLE RING STRUCTURE BONDED WITH SUBSTITUTED PYRIDYL GROUP, AND ORGANIC ELECTROLUMINESCENT DEVICE - Objects of the invention are to provide an organic compound having excellent properties, which is excellent in electron-injecting/transporting performance, has hole-blocking ability, and is highly stable in a thin-film state, as a material for an organic electroluminescent devices having a high-efficiency and a high durability; and to provide an organic electroluminescent device having a high-efficiency and a high durability using the compound. The invention relates to: a compound having a pyridoindole ring structure bonded with a substituted pyridyl group, which is represented by the following general formula (1); and an organic electroluminescent device comprising a pair of electrodes and at least one organic layer interposed between the electrodes, wherein the at least one organic layer contains the compound.12-09-2010
20100308304ELECTRONIC SHORT CHANNEL DEVICE COMPRISING AN ORGANIC SEMICONDUCTOR FORMULATION - The invention relates to an improved electronic device, like an organic field emission transistor (OFET), which has a short source to drain channel length and contains an organic semiconducting formulation comprising a semiconducting binder.12-09-2010
20100301310POLYMER AND POLYMERIC LUMINESCENT ELEMENT EMPLOYING THE SAME - A conjugated polymer having a phenoxazine structure and a phenothiazine structure as subsituents.12-02-2010
20100301320METHOD FOR FABRICATING ORGANIC OPTOELECTRONIC DEVICES - An organic optoelectronic device and a method for manufacturing the same are disclosed. In one aspect, the device has a stack of layers. The stack includes a buffer layer and a first organic semiconductor layer adjacent to the buffer layer at a first side of the buffer layer. The buffer layer includes at least one transition metal oxide doped with a metal.12-02-2010
20100301324ORGANIC ELECTRO-LUMINESCENT DISPLAY AND METHOD OF FABRICATING THE SAME - An organic electro-luminescent display and a method of fabricating the same include an organic light emitting diode, a driving transistor which drives the organic light emitting diode, and a switching transistor which controls an operation of the driving transistor, wherein active layers of the switching and driving transistors are crystallized using silicides having different densities such that the active layer of the driving transistor has a larger grain size than the active layer of the switching layer.12-02-2010
20100308314LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - A light emitting device is provided, which uses alternating current drive as a method of driving the light emitting device, and in which light emission is always obtained when voltages having different polarities are alternately applied, and a method of manufacturing the light emitting device is also provided. A first light emitting element made from an anode, an organic compound layer, and a cathode, and a second electrode made from an anode, an organic compound layer, and a cathode are formed. The light emitting elements are formed sandwiching the same organic compound layer. The anode of the first light emitting element and the anode of the second light emitting element, and the cathode of the first light emitting element and the cathode of the second light emitting element, are formed on opposite sides of the organic compound layer, respectively, thus sandwiching the organic compound layer. Note that voltages having an inverse polarity are applied alternately by the alternating current drive, and therefore light can always be emitted by any one of the first light emitting element or the second light emitting element.12-09-2010
20100308311PHOTOELECTRIC CONVERSION DEVICE AND IMAGING DEVICE - Provided is a photoelectric conversion device comprising a transparent electrically conductive film, a photoelectric conversion film, and an electrically conductive film, wherein the photoelectric conversion film contains a compound represented by the following formula (i):12-09-2010
20100308309PATTERNING OF ORGANIC SEMICONDUCTOR MATERIALS - Organic semiconductor material can be patterned from a solution onto a substrate by selectively wetting the substrate with the solution while applying a mechanical disturbance (such as stirring the solution while the substrate is immersed, or wiping the solution on the substrate). The organic semiconductor material can then be precipitated out of the solution, for example to bridge gaps between source and drain electrodes to form transistor devices. In some embodiments, the solution containing the organic semiconductor material can be mixed in an immiscible host liquid. This can allow the use of higher concentration solutions while also using less of the organic semiconductor material.12-09-2010
20100308320LIGHT EMITTING ELEMENT, LIGHT EMITTING DEVICE, AND ELECTRONIC DEVICE - It is an object of the present invention to provide a functional layer for protecting a light emitting element from being deteriorated by a physical or chemical influence when the light emitting element is manufactured or driven, and to attain extension of lifetime of an element and improvement of element characteristics without increasing a drive voltage and degrading transmittance and color purity by providing such a functional layer. One feature of the present invention is to provide a buffer layer made of a composite material for a light emitting element including aromatic hydrocarbon containing at least one vinyl skeleton and metal oxide in part of a light emitting substance containing layer, in the light emitting element fowled by interposing the light emitting substance containing layer between a pair of electrodes. The composite material for a light emitting element for forming the buffer layer of the present invention has high conductivity and is superior in transparency.12-09-2010
20100314616ORGANIC EL DISPLAY APPARATUS - A display apparatus comprises a display unit which has a plurality of organic EL elements two-dimensionally arranged to define pixels. Each organic EL element comprises a first electrode, an organic EL layer, and a second electrode laminated in order on an optically transparent substrate. One of the first electrode and second electrode is an optically transparent electrode, while the other is a non-optically transparent electrode. The non-optically transparent electrode is disposed to exist only in part of each pixel, as viewed from vertically above (for example, the width of the electrode is made smaller than the width of a pixel). In this way, the display unit can transmit light through portions of the pixels in which the non-optically transparent electrodes are not disposed. Preferably, the non-optically transparent electrode includes a mirror surface opposite to the organic EL layer.12-16-2010
20110240963ORGANIC LIGHT-EMITTING DIODE WITH HIGH COLOR RENDERING - An organic light-emitting diode with high color rendering is provided, which comprises: a substrate with a first electrode formed thereon; a first light-emitting region disposed over the first electrode, wherein the first light-emitting region comprises at least one layer of a first light-emitting layer, and the first light-emitting layer comprises at least one first dye respectively; a spacer disposed on the first light-emitting region; a second light-emitting region disposed on the organic spacer, wherein the second light-emitting region comprises at least one layer of a second light-emitting layer, and the second light-emitting layer comprises at least one second dye respectively; and a second electrode disposed over the second light-emitting region.10-06-2011
20110240974NOVEL BENZO[b]CHRYSENE COMPOUND AND ORGANIC LIGHT-EMITTING ELEMENT INCLUDING THE SAME - The present invention provides a benzo[b]chrysene compound represented by general formula [1] below and an organic light-emitting element including the compound.10-06-2011
20110240970ORGANIC LIGHT-EMITTING DISPLAY APPARATUS - An organic light-emitting display apparatus is disclosed. The organic light-emitting display apparatus includes a first sub-pixel, a second sub-pixel, and a third sub-pixel, where each of said first, second and third sub-pixels displays a different color, a substrate, a first electrode disposed on the substrate, a second electrode disposed on the first electrode, facing the first electrode, an organic emission layer disposed between the first electrode and the second electrode, including a first organic emission layer, a second organic emission layer, and a third organic emission layer, and an electron acceptor layer disposed between the first electrode and the second electrode configured to contact the organic emission layer, where the first organic emission layer is disposed in the first sub-pixel, the second organic emission layer is disposed in the second sub-pixel, and the third organic emission layer is commonly disposed over the first sub-pixel, the second sub-pixel, and the third sub-pixel, and where the electron acceptor layer is disposed between the first organic emission layer and the third organic emission layer in the first sub-pixel and between the second organic emission layer and the third organic emission layer in the second sub-pixel.10-06-2011
20110001133ORGANOMETALLIC COMPLEX, AND LIGHT-EMITTING ELEMENT AND LIGHT-EMITTING DEVICE USING THE ORGANOMETALLIC COMPLEX - A material which can emit phosphorescence is disclosed. Further, a light-emitting element having good chromaticity is disclosed. An embodiment of the present invention is an organometallic complex including a structure as represented by the general formula (1): wherein R01-06-2011
20110001131Organic semiconductor polymer, transistor including an organic semiconductor polymer and methods of fabricating the same - An organic semiconductor polymer, a transistor including an organic semiconductor polymer and methods of fabricating the same are provided, the organic semiconductor polymer including an aromatic or heteroaromatic main chain and at least one of a fluoro or a perfluoroalkyl at a polymer terminal end.01-06-2011
20110001132SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes a conductive layer formed in the junction region and a boundary layer arranged to wrap a side and a bottom of the conductive layer.01-06-2011
20110001129SUBSTITUTED BIPYRIDYL COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE - [Problem] To provide an organic compound which shows an excellent electron-injecting/transporting performance, has a hole-blocking ability and shows a high stability as a film, that is, having excellent characteristics as a material for organic electroluminescent device having high efficiency and high durability; and to provide an organic EL device comprising the compound and having high efficiency and high durability.01-06-2011
20110001128COLOR UNIT AND IMAGING DEVICE HAVING THE SAME - A color unit is disclosed in which is included in an imaging device. The color unit includes; a first p-type electrode layer disposed on a light receiving side of the color unit, and including a light-absorptive organic material which selectively absorbs a wavelength other than a desired wavelength in a visible light band of the electromagnetic spectrum, a second p-type electrode layer disposed under the first p-type electrode layer and including a light-absorptive organic material which absorbs a desired wavelength and an n-type electrode layer disposed under the second p-type electrode layer and including an organic material, wherein photoelectric conversion is performed through a p-n junction between the second p-type electrode layer and the n-type electrode layer and light of the desired wavelength is converted into electrical current.01-06-2011
20100237328BENZO[a]FLUORANTHENE COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE SAME - There is provided a benzo[a]fluoranthene compound represented by the formula (I):09-23-2010
20110108827ORGANOMETALLIC COMPLEX FOR ORGANIC LIGHT-EMITTING LAYER AND ORGANIC LIGHT-EMITTING DIODE USING THE SAME - An organometallic complex represented by Formula 1 is provided. An organic light-emitting diode using the organometallic complex exhibits improved current and power efficiency and long lifetime.05-12-2011
20110108824ELECTROLUMINESCENT POLYMERS, METHOD FOR THE PRODUCTION THEREOF, AND USE THEREOF - The present invention relates to electroluminescent polymers which comprise 2-vinylthiophenylbenzene derivatives as recurring units, to a process for the preparation thereof, to blends and formulations comprising these polymers, and to the use of these polymers in electronic devices, in particular in organic light-emitting diodes, so-called OLEDs.05-12-2011
20110108813ORGANIC SEMICONDUCTOR COMPOSITION, ORGANIC THIN FILM AND ORGANIC THIN FILM ELEMENT PROVIDED WITH ORGANIC THIN FILM - An object of the present invention is to provide an organic semiconductor composition capable of forming an organic film having high carrier transportability. A preferable organic semiconductor composition contains a lower molecular weight compound and a higher molecular weight compound having carrier transportability, and the solubility parameter of the higher molecular weight compound and the solubility parameter of the lower molecular weight compound differ by 0.6 to 1.5.05-12-2011
20110108809ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An organic light emitting diode display device includes a substrate body that is divided into a display area and a neighboring area; an organic light emitting diode formed in the display area of the substrate body; a barrier film that is attached to the substrate body and covers the organic light emitting diode; and an adhesive agent disposed between the neighboring area of the substrate body and the barrier film. In addition, a groove pattern is recessed on one surface of the barrier film that is in contact with the adhesive agent.05-12-2011
20110108822MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention relates to transition-metal complexes of the general formula I or II, in particular as emitter molecules in organic electronic devices, to a layer and to an electronic device which comprise the compounds according to the invention, and to a process for the preparation of the compounds according to the invention.05-12-2011
20110108820PHENOXAZINE POLYMER COMPOUND AND LIGHT EMITTING DEVICE USING THE SAME - A polymer compound comprising a residue of a compound represented by the following formula (0):05-12-2011
20110108815MULTI-RATE RESIST METHOD TO FORM ORGANIC TFT CONTACT AND CONTACTS FORMED BY SAME - A method for forming a thin film electrode for an organic thin film transistor of the invention provides a multi-layer mask on a substrate with an electrode area opening in a top layer of the mask that is undercut by openings in other layers of the mask. A thin film of metal is deposited in the electrode area on the substrate. Removing the multi-layer mask leaves a well-formed thin film electrode with naturally tapered edges. A preferred embodiment of the invention is a method for forming a thin film electrode for an organic thin film transistor. The method includes depositing a first layer of photoresist on a substrate. The photoresist of the first layer has a first etching rate. A second layer of photoresist is deposited on the first layer of photoresist. The photoresist of the second layer has a second etching rate that is lower than the first etching rate. The first and second layer of photoresist are patterned by exposure. Developing the first and second layers of photoresist provides an electrode area on the substrate. An electrode is deposited in the electrode area. Lift-off of the first and second layers is performed. The electrode that is deposited has a tailored, tapered edge. A preferred embodiment thin film electrode in an organic thin film transistor has a tapered edge with a contact angle of approximately +40±4.4°.05-12-2011
20110108811ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME - An organic light emitting diode display and a method of manufacturing the same are disclosed. The organic light emitting diode display includes a first substrate, an organic light emitting diode that is positioned on the first substrate and includes a first electrode, an organic layer having at least a light emitting layer, and a second electrode, an organic buffer layer that is positioned on an entire surface of the organic light emitting diode and has a hydroxy group or an amide group, a sealant positioned on an entire surface of the organic buffer layer, and a second substrate positioned on the sealant.05-12-2011
20100193777METHOD OF PRODUCING A DESUBSTITUTED COMPOUND, ORGANIC SEMICONDUCTOR FILM AND METHOD OF PRODUCING THE SAME - A method of producing a desubstituted compound, including: applying an external stimulation to a compound A-(B)08-05-2010
20090072224FIELD EFFECT TRANSISTOR - A field effect transistor including a gate isulation portion, an organic semiconductor portion, a source electrode and a drain electrode, wherein when a voltage is applied to the gate at 70° C. for 5.0±0.1 hours so that the field strength in the gate insulation portion would be 100±5 MV/m, the change in the threshold voltage is within 5 V. The organic semiconductor portion has a high driving stability, of which the change in characteristics by driving is thereby small.03-19-2009
20110024736ORGANIC ELECTROLUMINESCENT ELEMENT AND DISPLAY - An organic electroluminescent includes an organic layer with a total thickness of 150 nm or over is included between an anode and a cathode. The organic layer includes a light-emitting layer containing a host material of a polycyclic aromatic hydrocarbon compound with a basic skeleton having three to seven ring members, and hole supply layers arranged between the anode and the light-emitting layer and having a smaller thickness than a thickness of the light-emitting layer.02-03-2011
20110127517COMPOUND CONTAINING 1,3-DIENE STRUCTURE AND METHOD FOR PRODUCING SAME - Disclosed is a compound containing a divalent group represented by formula (I). (In formula (I), Ar06-02-2011
20110240980n-Type Doped Organic Materials and Methods Therefor - In accordance with various embodiments, an organic electronic device includes an n-type dopant material including an imidazole-based material having a hydrogen-based material bonded between nitrogen atoms. The n-type dopant material n-dopes an organic material, and can be used to mitigate degradation in mobility due to conditions such as exposure to ambient atmosphere, which can effect an undesirable reduction in charge transport. Other embodiments are directed to carbon nanotubes or graphene structures with this type of n-type dopant, wherein the Fermi level for the carbon nanotubes or graphene structures is below −2.5 eV to effect such n-type doping.10-06-2011
20110240976NOVEL BENZOPYRENE COMPOUND AND ORGANIC LIGHT-EMITTING ELEMENT CONTAINING THE SAME - A benzopyrene compound represented by a general formula [1] below,10-06-2011
20110240982BENZOINDENOCHRYSENE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE USING THE SAME - An organic light-emitting device has light emission with high efficiency, high luminance and good color purity, and durability. An organic light-emitting device includes an anode, a cathode and an organic compound layer disposed between the anode and the cathode, wherein at least one layer of the organic compound layer includes at least one kind of the benzoindenochrysene compound represented by the general formula (1) in which X10-06-2011
20110240979CONDENSED-CYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A condensed-cyclic compound and an OLED including the same, the condensed-cyclic compound represented by Formula 1 below:10-06-2011
20100133525THIN FILM TRANSISTOR, DISPLAY UNIT, AND METHOD OF MANUFACTURING THIN FILM TRANSISTOR - A thin film transistor includes: a gate electrode; a gate insulting film formed on the gate electrode; an oxide semiconductor thin film layer forming a channel region corresponding to the gate electrode on the gate insulating film; a channel protective layer that is formed at least in a region corresponding to the channel region on the gate insulating film and the oxide semiconductor thin film layer, and that includes a first channel protective layer on a lower layer side and a second channel protective layer on an upper layer side; and a source/drain electrode that is formed on the channel protective layer and is electrically connected to the oxide semiconductor thin film layer. The first channel protective layer is made of an oxide insulating material, and one or both of the first channel protective layer and the second channel protective layer is made of a low oxygen permeable material.06-03-2010
20100133523LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - Light-emitting elements in which an increase of driving voltage can be suppressed are provided. Light-emitting devices whose power consumption is reduced by including such light-emitting elements are also provided. In a light-emitting element having an EL layer between an anode and a cathode, a first layer in which carriers can be produced is formed between the cathode and the EL layer and in contact with the cathode, a second layer which transfers electrons produced in the first layer is formed in contact with the first layer, and a third layer which injects the electrons received from the second layer into the EL layer is formed in contact with the second layer.06-03-2010
20100133522WHITE ORGANIC LIGHT EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention relates to a white organic light emitting device and a method for manufacturing the same, in which a hole transport layer is made to have an energy level higher than an energy level of an excited state of a phosphorescent light emitting layer adjacent thereto for enhancing light emitting efficiency of the hole transport layer without an additional exciton blocking layer, and a dopant content in the phosphorescent light emitting layer is adjusted for preventing color shift from taking place.06-03-2010
20100133520METHOD FOR MANUFACTURING AN ELECTRODE - The present invention relates to a method for manufacturing an organic electronic device, comprising providing by electro-deposition an electrode to a surface of an electro-active material—the electro-active material comprising an organic electro-active compound—or providing said electrode to a surface of a substrate for said electro-active material, after which the electro-active material is applied to a surface of the electrode, wherein the electro-deposition comprises the use of a plating liquid comprising an ionic liquid and metal or metalloid ions which metal or metalloid ions are reduced and deposited to form the electrode.06-03-2010
20100133519ARYLAMINE COMPOUNDS AND ELECTRONIC DEVICES - There is provided conductive organic arylamine compounds. The compounds may be prepared as films and such films may be used as a hole transporting layer, an emissive layer or an electron transporting layer in organic light emitting devices.06-03-2010
20100133515Layered devices with crosslinked polymer and methods of preparing the same - The present invention is drawn to a layered organic device, and a method of forming the same. The method includes steps of applying a first solvent-containing organic layer to a substrate and removing solvent from the first solvent-containing organic layer to form a first solidified organic layer. Additional steps include applying a second solvent-containing organic layer to the first solidified organic layer and removing solvent from the second solvent-containing organic layer to form a second solidified organic layer. The first solidified organic layer can be crosslinked, which suppresses negative impact to components in the first solidified organic layer when the solvent of the second solvent-containing organic layer is deposited on the first solidified organic layer.06-03-2010
20100133517Organic Light Emitting Element and Organic Light Emitting Device Including the Same - An organic light emitting element and an organic light emitting device including the same is provided. At least one p-type or n-type overdoping layer is formed between two light emitting members forming a p-n junction in the organic light emitting element.06-03-2010
20110017981PROCESS FOR THE PREPARATION OF SEMICONDUCTING LAYERS - A convenient way for preparing thin layers of organic semiconducting materials comprises application or deposition of particles of a semiconducting material containing an organic semiconductor on a suitable surface, and converting these particles into a semiconducting layer on a substrate by application of pressure and optionally elevated temperatures.01-27-2011
20110024726ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device includes: a substrate; a first electrode located on the substrate; an organic light emitting layer located on the first electrode; and a second electrode located on the organic light emitting layer, wherein the organic emitting layer comprises an interface buffer layer located on the first electrode and formed from a mixture of an inorganic material and an organic material.02-03-2011
20110240965ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including an emission layer including one or more emission layer of a red emission layer patterned in a red light-emitting region and a green emission layer patterned in a green light-emitting region and a blue emission layer formed as a common layer, wherein a blue emission is prevented in at least one region of the red light-emitting region and the green light-emitting region by adjusting the HOMO and LUMO levels of a host and a dopant of the green emission layer and/or the red emission layer.10-06-2011
20110017983POLYMER AND ORGANIC ELECTROLUMINESCENT DEVICE INCLUDING THE SAME - A polymer compound including a repeating unit shown by the following formula (1) wherein at least one of Ar01-27-2011
20110017986Silicone Composition and Organic Light-Emitting Diode - A silicone composition comprising (A) a hydrolysis product prepared by reacting at least one thiophenyl-substituted silane and a cross-linking agent with water in the presence of an organic solvent to form an organic phase containing the hydrolysis product and an aqueous phase, and separating the organic phase from the aqueous phase, and (B) an organic solvent; and an organic light-emitting diode (OLED) containing a hole-transport/hole-injection layer comprising a cured polysiloxane prepared by applying the aforementioned silicone composition to form a film and curing the film.01-27-2011
20110017988ORGANIC ELECTROLUMINESCENT ELEMENT, LIGHTING DEVICE AND DISPLAY DEVICE - Disclosed is an organic EL device element having high external quantum efficiency and long life time. A lighting device and a display device each using the organic EL device element are also disclosed. The organic EL element comprises plural organic compound layers including a light-emitting layer and at least one hole transport layer, interposed between an anode and a cathode, and a phosphorescent light-emitting compound contained in the light-emitting layer emits light. The organic EL device is characterized in that at least one hole-transport layer contains two or more polymerizable compounds represented by general Formula (1) or two or more polymer compounds having a structural unit derived from a compound.01-27-2011
20110017984Metal complex compound and organic electroluminescent device using same - A metal complex compound having a special structure containing metals such as iridium. An organic electroluminescence device which comprises at least one organic thin film layer sandwiched between a pair of electrode consisting of an anode and a cathode, wherein the organic thin film layer comprises the above metal complex compound, which emits light by applying an electric voltage between the pair of electrode. An organic EL device employing the novel metal complex compound emits various phosphorous lights including blue light having an enhanced current efficiency and prolonged lifetime.01-27-2011
20110108823MATERIALS FOR ORGANIC ELECTROLUMINESCENCE DEVICES - The present invention relates to aromatic amines and to electronic devices in which these amines are used, in particular, as matrix material in the emitting layer and/or as hole-transport material and/or as electron-blocking or exciton-blocking material and/or as electron-transport material.05-12-2011
20110108828LIGHT EMITTING ELEMENT, LIGHT EMITTING DEVICE, AND ELECTRONIC DEVICE - It is an object of the present invention to provide a functional layer for protecting a light emitting element from being deteriorated by a physical or chemical influence when the light emitting element is manufactured or driven, and to attain extension of lifetime of an element and improvement of element characteristics without increasing a drive voltage and degrading transmittance and color purity by providing such a functional layer. One feature of the present invention is to provide a buffer layer made of a composite material for a light emitting element including aromatic hydrocarbon containing at least one vinyl skeleton and metal oxide in part of a light emitting substance containing layer, in the light emitting element fowled by interposing the light emitting substance containing layer between a pair of electrodes. The composite material for a light emitting element for forming the buffer layer of the present invention has high conductivity and is superior in transparency.05-12-2011
20110024730POLYMER, ORGANIC THIN FILM USING THE SAME, AND ORGANIC THIN FILM DEVICE - A polymer according to the present invention comprises a repeating structure represented by the following formula (1), wherein L and X each independently have a configuration in which are linked a plurality of conjugation forming structures each conjugated by itself, and each have at least one thienylene structure as the conjugation forming structure:02-03-2011
20110024731NOVEL CONDENSED POLYCYCLIC AROMATIC COMPOUND AND USE THEREOF - The object of the present invention to provide an organic semiconductor device comprising an organic semiconductor material satisfying both the requirement of high electron field-effect mobility and high on/off current ratio. The present invention provides a novel condensed polycyclic aromatic compound satisfying both the high electron field-effect mobility and high on/off current ratio required for organic semiconductor materials.02-03-2011
20110024728Organic Thin Film Transistors and Methods of Making the Same - An organic thin film transistor, and a method of making the same, comprising a source and drain electrode and organic semi-conductive material disposed therebetween in a channel region, in which the source and drain electrodes have disposed on them a thin self-assembled layer of a material comprising a dopant moiety for chemically doping the organic semi-conductive material by accepting electrons, the dopant moiety having a redox potential of at least 0.3 eV relative to a saturated calomel electrode in acetonitrile.02-03-2011
20110024727LOW-VOLTAGE, N-CHANNEL HYBRID TRANSISTORS - Hybrid semiconducting-dielectric materials and electronic or electro-optic devices using the hybrid semiconducting-dielectric materials. Hybrid semiconducting-dielectric materials comprise molecules that have a core section that provides an n-type semiconducting property and side chains that provide a dielectric property to a layer of hybrid semiconducting-dielectric material. Specific hybrid semiconducting-dielectric materials include tetracarboxylic diimide compounds having sidechains comprising fluorine substituted aliphatic or aromatic moieties linked to the tetracarboxylic diimide structure by an alkylene or heteroalkylene linking group.02-03-2011
20110024732LIGHT EMITTING ELEMENT AND LIGHT EMITTING - It is an object of the present invention to obtain an organometallic complex that is capable of converting an excited triplet state into luminescence, a light-emitting element that can be driven for a long time, is high in luminous efficiency, and has a favorable long lifetime, and a light-emitting device using the light-emitting element. The present invention provides a light-emitting element that has a pair of electrodes (an anode and a cathode) and a light-emitting layer between a pair of electrodes, where the light-emitting layer includes an organometallic complex represented by the following general formula (5) and one of a compound that has a larger energy gap than the organometallic complex and a compound that has a larger ionization potential and a smaller electron affinity than the organometallic complex, and provides a light-emitting device using the light-emitting device.02-03-2011
20110024733POLYMERISABLE COMPOSITIONS AND ORGANIC LIGHT-EMITTING DEVICES CONTAINING THEM - Compositions of a mixture of a thiol material and a material that contains a reactive unsaturated carbon-carbon bond that can be polymerised to form a charge-transporting or luminescent film are described, as is an organic light-emitting diode (OLED) device comprising at least one such charge-transporting or emissive layer that has been formed by polymerising a thiol material and an ene material. The process for forming such an OLED, including the deposition of a layer of material comprising the polymerisable composition, from solution, exposing said layer to actinic radiation through a mask, and then optionally developing said film to form a photopatterned film, is also disclosed.02-03-2011
20110024737FUSED POLYCYCLIC COMPOUND AND ORGANIC LIGHT EMITTING DEVICE HAVING THE COMPOUND - Provided are a fused polycyclic compound obtained by expanding the conjugated system of a chrysene skeleton, and an organic light emitting device using the compound. The organic light emitting device has an optical output with high efficiency and high luminance, and is extremely durable.02-03-2011
20110024734DEVICE FOR SPRAYING, METHOD THEREFOR AND ORGANIC ELECTRONIC CONSTRUCTION ELEMENT - The embodiments relate to a device and a method for spraying coatings of organic construction elements. The embodiments relate, in particular, to the spraying of coatings made up of components that do not dissolve in the same solvent, for example, and/or the spraying of a plurality of coatings one after the other. A plurality of spray heads is used, for example one after the other and/or next to one another.02-03-2011
20110024735COMPOUND FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Disclosed is an organic electroluminescent device (organic EL device) that is improved in luminous efficiency, fully secured of driving stability, and of simple structure. The organic EL device comprises a light-emitting layer between an anode and a cathode piled one upon another on a substrate and the light-emitting layer comprises a phosphorescent dopant and a compound containing carbazolyl groups at both ends represented by the following formula (1) as a host material. In formula (1), X is independently CH optionally containing a substituent or N and L is a direct bond, an ethylene group, or an acetylene group.02-03-2011
20090065769Semiconductor device amd method for manufacturing the same - It is an object of the present invention to provide a technique in which a high-performance and high reliable memory device and a semi-conductor device provided with the memory device are manufactured at low cost with high yield. The semiconductor device includes an organic compound layer including an insulator over a first conductive layer and a second conductive layer over the organic compound layer including an insulator. Further, the semiconductor device is manufactured by forming a first conductive layer, discharging a composition of an insulator and an organic compound over the first conductive layer to form an organic compound layer including an insulator, and forming a second conductive layer over the organic compound layer including an insulator.03-12-2009
20090065768Memory Element and Semiconductor Device - To provide a memory element, a memory device, and a semiconductor device, which can be easily manufactured at low cost; are nonvolatile and data-rewritable; and have preferable switching properties and low operating voltage. A memory element of the invention includes a first conductive layer, a second conductive layer facing the first conductive layer, and an organic compound layer provided between the first and the second conductive layers. For the organic compound layer, a high molecular material having an amide group at least at one kind of side chains is used.03-12-2009
20110031475Semiconductor Composition - A semiconducting liquid composition including a semiconducting material comprising a compound of the formula disclosed herein, a liquid vehicle, a solubility promoter that enhances solubility of the semiconducting polymer; and an optional crystallization inhibitor.02-10-2011
20110031485ORGANIC LIGHT EMITTING DEVICE - Embodiments of the present invention are directed to a heterocyclic compound and an organic light-emitting device including the heterocyclic compound. The organic light-emitting devices using the heterocyclic compounds have high-efficiency, low driving voltage, high luminance and long lifespan.02-10-2011
20110031481USES OF DITHIOCARBAMATE COMPOUNDS - The present invention relates to the use of dithiocarbamate compounds and to an assembly for use in an electronic device, said assembly comprising a self-assembled monolayer of at least one dithiocarbamate compound. The present invention also relates to an electronic device including such assembly.02-10-2011
20110031483ORGANIC LIGHT EMITTING DEVICE - Embodiments of the present invention are directed to a heterocyclic compound and an organic light-emitting device including the heterocyclic compound. The organic light-emitting devices using the heterocyclic compounds have high-efficiency, low driving voltage, high luminance and long lifespan.02-10-2011
20110031488COMPOUND FOR ORGANIC THIN-FILM TRANSISTOR AND ORGANIC THIN-FILM TRANSISTOR USING THE COMPOUND - A compound for an organic thin film transistor having a structure shown by the following formula (1):02-10-2011
20110031474ELECTROLUMINESCENT DEVICE WITH IMPROVED LIGHT DECOUPLING - The invention relates to an electroluminescent device which comprises a substrate (02-10-2011
20110031478ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An organic light emitting diode (OLED) display device and a method of fabricating the same. The OLED display device includes a substrate having a pixel region and a non-pixel region, a buffer layer arranged on the substrate, a semiconductor layer arranged in the non-pixel region of the substrate, a first electrode arranged in the non-pixel region and in the pixel region and electrically connected to the semiconductor layer, a gate insulating layer arranged on an entire surface of the substrate and partially exposing the first electrode in the pixel region, a gate electrode arranged on the gate insulating layer to correspond to the semiconductor layer, a pixel defining layer partially exposing the first electrode, an organic layer arranged on the first electrode; and a second electrode arranged on the entire surface of the substrate.02-10-2011
20110031487COMPOUND FOR ORGANIC THIN-FILM TRANSISTOR AND ORGANIC THIN-FILM TRANSISTOR USING THE COMPOUND - A compound for an organic thin film transistor having a structure shown by the following formula (1):02-10-2011
20110031484CONDENSED-CYCLIC COMPOUND AND ORGANIC LIGHT EMITTING DIODE HAVING ORGANIC LAYER INCLUDING THE SAME - A condensed-cyclic compound represented by Formula 1 and an organic light emitting diode including the same:02-10-2011
20110031486EVAPORATION MASK, METHOD OF FABRICATING ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME, AND ORGANIC ELECTROLUMINESCENT DEVICE - An evaporation mask, a method of manufacturing an organic electroluminescent device using the evaporation mask, and an organic electroluminescent device manufactured by the method are provided. The evaporation mask is formed of a thin film and is drawn taut by application of tension. The evaporation mask includes at least one mask unit, the mask unit including a plurality of main apertures, and a plurality of first dummy apertures formed adjacent to outermost ones of the main apertures in a direction in which tension is applied to the evaporation mask.02-10-2011
20110108818ORGANIC ELECTROLUMINESCENCE DEVICE - The present invention relates to organic electroluminescent devices which comprise ketone or phosphine oxide derivatives as matrix material and at least two phosphorescent compounds.05-12-2011
20110108810ORGANIC ELECTROLUMINESCENCE DEVICE - Provided is an organic electroluminescence device having high efficiency and a long lifetime. The organic electroluminescence device includes an anode; a cathode; and an organic compound layer interposed between the anode and the cathode, and including an emission layer formed of a first emission layer provided on an anode side and a second emission layer provided on a cathode side, in which the first emission layer contains a first host and a first dopant, the second emission layer contains a second host and a second dopant, the following relationship (a) is established between the first host and the first dopant, the following relationship (b) is established between the second host and the second dopant, and the following relationship (c) is established between the first host and the second host:05-12-2011
20100012927DEVICES HAVING VERTICALLY-DISPOSED NANOFABRIC ARTICLES AND METHODS OF MAKING THE SAME - Electro-mechanical switches and memory cells using vertically-oriented nanofabric articles and methods of making the same. Under one aspect, a nanotube device includes a substantially horizontal substrate having a vertically oriented feature; and a nanotube film substantially conforming to a horizontal feature of the substrate and also to at least the vertically oriented feature. Under another aspect, an electromechanical device includes a structure having a major horizontal surface and a channel formed therein, the channel having first and second wall electrodes defining at least a portion of first and second vertical walls of the channel; first and second nanotube articles vertically suspended in the channel and in spaced relation to a corresponding first and second wall electrode, and electromechanically deflectable in a horizontal direction toward or away from the corresponding first and second wall electrode in response to electrical stimulation.01-21-2010
20110042662ORGANIC ELECTROLUMINESCENCE ELEMENT, AND METHOD FOR PRODUCTION THEREOF - Disclosed is an organic electroluminescence element comprising at least an anode, a light-emitting layer, an intermediate layer and a cathode laminated sequentially in this order, wherein the intermediate layer comprises a salt of an acid of at least one metal selected from the group consisting of molybdenum, tungsten, vanadium, tantalum, titanium and metals belonging to Group IIb and at least one alkali metal selected from the group consisting of potassium, rubidium and cesium.02-24-2011
20110114931ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME - An organic light emitting diode (OLED) device is disclosed. In one embodiment, the OLED device includes: i) a substrate and ii) a first thin film formed on the substrate, wherein the first thin film comprises first and second surfaces opposing each other, wherein the first surface contacts the substrate, and wherein a plurality of protrusions and depressions are alternately formed on the second surface of the first thin film. The OLED device may further include a second thin film formed on the protrusions and depressions of the first thin film, a first electrode formed on the second thin film, a light emitting member formed on the first electrode and a second electrode formed on the organic light emitting member.05-19-2011
20110114936DISPLAY DEVICE AND MANUFACTURING METHOD OF THE DISPLAY DEVICE - It is an object of the present invention to provide a technique to manufacture a highly reliable display device at a low cost with high yield. A display device according to the present invention includes a semiconductor layer including an impurity region of one conductivity type; a gate insulating layer, a gate electrode layer, and a wiring layer in contact with the impurity region of one conductivity type, which are provided over the semiconductor layer; a conductive layer which is formed over the gate insulating layer and in contact with the wiring layer; a first electrode layer in contact with the conductive layer; an electroluminescent layer provided over the first electrode layer; and a second electrode layer, where the wiring layer is electrically connected to the first electrode layer with the conductive layer interposed therebetween.05-19-2011
20130153864AMBIPOLAR INVERTER DEVICE STRUCTURE AND MANUFACTURING METHOD THEREOF - An ambipolar inverter device suitable for use in an integrated circuit. An electron blocking layer and a hole blocking layer are respectively disposed at two sides of the ambipolar semiconductor layer, so that the operation of the inverter may be executed in a single device. In addition, the manufacturing method of the disclosure is simple, adopting only one patterning step, so as to effectively improve the performance of the ambipolar device.06-20-2013
20130153866MATERIALS AND METHODS FOR ORGANIC LIGHT-EMITTING DEVICE MICROCAVITY - The present teachings provide methods for forming organic layers for an organic light-emitting device (OLED) using an inkjet printing or thermal printing process. The method can further use one or more additional processes, such as vacuum thermal evaporation (VTE), to create an OLED stack. OLED stack structures are also provided wherein at least one of the charge injection or charge transport layers is formed by an inkjet printing or thermal printing method at a high deposition rate. The structure of the organic layer can be amorphous, crystalline, porous, dense, smooth, rough, or a combination thereof, depending on deposition parameters and post-treatment conditions. An OLED microcavity is also provided and can be formed by one of more of the methods.06-20-2013
20130153869CONDUCTIVE ELEMENTS IN ORGANIC ELECTRONIC DEVICES - A technique comprising: forming a conductive element of an electronic device on a portion of the surface of a first organic layer, applying a second organic layer over said conductive element and said first organic layer, and then treating at least one of the first and second organic layers to increase the strength of adhesion between said first and second organic layers. Thereby the retention of said conductive element on said first organic layer is improved.06-20-2013
20130153871TOP-EMITTING WHITE ORGANIC LIGHT-EMITTING DIODES HAVING IMPROVED EFFICIENCY AND STABILITY - Treatment for Cancer Using A Preparation containing a combination of one or more Natural or Synthetic or a Combination of Natural and Synthetic Boswellic Acids and one or more Natural or Synthetic or a Combination of Natural and Synthetic Cytokinins such as Kinetin, Kinetin Riboside and other Cytokinins and (the Preparation) could also contain one or more Natural or Synthetic or a Combination of Natural and Synthetic plant growth hormones such as Auxins in any percentage Ratio and could Optionally include Pharmaceutically Suitable Radioactive Agent (Radio Therapy) in any percentage ratio as a “Stand Alone” Treatment for Cancer or to Be used in Conjunction with other Pharmaceutically Suitable Therapy and Treatment(s) in any percentage ratio as a Treatment for Treating Cancer.06-20-2013
20130153874MATERIAL FOR ORGANIC ELECTROLUMINESCENCE DEVICE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - Provided are an organic electroluminescence device, which: shows high luminous efficiency; is free of any pixel defect; and has a long lifetime, and a material for an organic electroluminescence device for realizing the device. The material for an organic electroluminescence device is a compound of a specific structure having a π-conjugated heteroacene skeleton crosslinked with a carbon atom, nitrogen atom, or oxygen atom. The organic electroluminescence device has one or more organic thin film layers including a light emitting layer between a cathode and an anode, and at least one layer of the organic thin film layers contains the material for an organic electroluminescence device.06-20-2013
20130153875Electro-Optic Device and Method for Manufacturing the Same - An electro-optic device and a method for manufacturing the same. The method includes forming a bottom electrode on a substrate, forming a first insulation film crossing over the bottom electrode, forming an organic film on the substrate, forming a top electrode film on the organic film, and forming a top electrode that crosses the bottom electrode by laser-scribing the top electrode film. Herein, forming the top electrode by laser-scribing may position a bottom edge of the top electrode along an upper side of the first insulation film. Therefore, processing required for separately forming the top electrodes may be reduced, thereby simplifying manufacturing processes and saving manufacturing cost. Furthermore, since the insulation film is formed under the top electrode edge, leakage current and device malfunction caused by deformation of the top electrode can be prevented, even though the top electrode edge is damaged during laser-scribing. Thus, electro-optic device reliability can be improved.06-20-2013
20110017982ELEMENT FOR ELECTRONIC COMPONENT - A surface of an anode body made of a metal material having a valve action is oxidized so as to form a dielectric layer, a conductive polymer precursor solution is stuck to the surface of the dielectric layer, the solvent is evaporated in an atmosphere of a relative humidity of 30 to 45% to be removed, electropolymerization is carried out so as to obtain a semiconductor layer having projections being 2 to 70 μm high on the outer surface thereof, a conductive carbon layer is laminated using a conductive carbon paste, and a conductive metal layer containing a metal conductive powder and a binder is laminated so as to obtain an element for an electronic component, and the element for an electronic component is encapsulated by a resin so as to obtain an electronic component.01-27-2011
20110240973Annellated Dithiophene Copolymers - Disclosed is an organic semiconductor material, layer or component, comprising a copolymer of the formula10-06-2011
20110240968Organic light-emitting device - An organic light-emitting device including a substrate; a first electrode on the substrate, the first electrode including a first surface and a second surface opposite to the first surface; an organic layer on the first electrode, the organic layer being adjacent to the first surface of the first electrode; a second electrode on the organic layer, the second electrode including a first surface adjacent to the organic layer and a second surface opposite to the first surface; and a luminescent efficiency improvement layer on at least one of the second surface of the first electrode and the second surface of the second electrode, the luminescent efficiency improvement layer including a condensed-cyclic compound represented by Formula 1, below:10-06-2011
20110240966Organic Electroluminescent Device - An organic electroluminescent device comprising: a substrate; a first electrode disposed over the substrate for injecting charge of a first polarity; a second electrode disposed over the first electrode for injecting charge of a second polarity opposite to said first polarity; an organic light emitting layer disposed between the first and the second electrode; an encapsulant can disposed over, and spaced apart from, the second electrode, defining a cavity therebetween; wherein a plurality of spacers are disposed between the encapsulant can and the second electrode forming multiple sealed cavities between the second electrode and the encapsulant can.10-06-2011
20110114929LIGHT-EMITTING ELEMENT, LIGHT-EMITTING APPARATUS, DISPLAY, AND ELECTRONIC DEVICE - A light-emitting element has a cathode, an anode, a light-emitting portion interposed between the cathode and the anode and having a light-emitting layer that emits light on energization between the cathode and the anode, and a hole-injection layer interposed between and in direct contact with the anode and the light-emitting layer and having a capability of receiving holes, and the hole-injection layer is mainly composed of a benzidine derivative.05-19-2011
20110114935Stable electrodes with modified work functions and methods for organic electronic devices - One embodiment is a method, comprising: depositing a molecule on an electrode, wherein the electrode has a surface and the molecule has a binding group (e.g., an anchoring group) that binds to the surface, thereby providing a work function that is stable for at least 100 hours under ambient conditions.05-19-2011
20110114933NOVEL TRANSITION METAL COMPLEXES AND USE THEREOF IN ORGANIC LIGHT-EMITTING DIODES - IV - Metal complexes comprising at least one polycyclic aromatic ligand which is bonded to the central metal via one nitrogen atom and one carbon atom and comprises at least one heteroatom selected from O and S, an organic light-emitting diode comprising at least one inventive metal complex, a light-emitting layer comprising at least one inventive metal complex, an organic light-emitting diode comprising at least one inventive light-emitting layer, the use of the at least one inventive metal complex in organic light-emitting diodes, and a device selected from the group consisting of stationary visual display units such as visual display units of computers, televisions, visual display units in printers, kitchen appliances and advertising panels, illuminations, information panels and mobile visual display units such as visual display units in cellphones, laptops, digital cameras, vehicles, and destination displays on buses and trains, comprising at least one inventive organic light-emitting diode.05-19-2011
20110114928Heterocyclic Compound, Light-Emitting Element, Light-Emitting Device, Electronic Device, and Lighting Device - Provided are a heterocyclic compound which emits blue light and is represented by General Formula (G1) below, and a light-emitting element, a light-emitting device, an electronic device and a lighting device which are formed using the heterocyclic compound represented by General Formula (G1) below. The use of the heterocyclic compound represented by General Formula (G1) makes it possible to provide a light-emitting element which has high emission efficiency, and also a light-emitting device, an electronic device and a lighting device which have reduced power consumption.05-19-2011
20110114926ORGANIC ELECTROLUMINESCENT ELEMENT, ORGANIC EL DISPLAY DEVICE AND ORGANIC EL ILLUMINATING DEVICE - To provide an organic electroluminescent element having a low driving voltage, high current efficiency and high voltage efficiency.05-19-2011
20110114924ORGANIC LIGHT EMITTING DIODE WITH MAGNETIC STRUCTURE FOR IMPROVED CURRENT ADAPTABILITY - An organic light emitting device includes a cathode and an optional substrate external to the device. The device further includes at least one film layer disposed on at least one of the cathode or the substrate. The at least one film layer includes at least one of a magnetic, a mixed magnetic material, and combinations thereof. The device further includes an anode and at least one organic layer intermediate the cathode and anode.05-19-2011
20110114923METHOD FOR MAKING MATERIAL USEFUL IN OPTOELECTRONIC DEVICE, THE MATERIAL AND THE OPTOELECTRONIC DEVICE - A method for making a material useful in an optoelectronic device comprises: providing a mixture of a polytriarylamine and a compound; forming a film of the mixture; and treating the film; wherein the compound comprises at least one functional group selected from arylamine and arylphosphine and at least two functional groups selected from vinyl, allyl, vinyl ether, epoxy, and acrylate. The materials made and the optoelectronic device are also provided.05-19-2011
20110114921ORGANIC PHOTOSENSITIVE CELLS GROWN ON ROUGH ELECTRODE WITH NANO-SCALE MORPHOLOGY CONTROL - An optoelectronic device and a method for fabricating the optoelectronic device includes a first electrode disposed on a substrate, an exposed surface of the first electrode having a root mean square roughness of at least 30 nm and a height variation of at least 200 nm, the first electrode being transparent. A conformal layer of a first organic semiconductor material is deposited onto the first electrode by organic vapor phase deposition, the first organic semiconductor material being a small molecule material. A layer of a second organic semiconductor material is deposited over the conformal layer. At least some of the layer of the second organic semiconductor material directly contacts the conformal layer. A second electrode is deposited over the layer of the second organic semiconductor material. The first organic semiconductor material is of a donor-type or an acceptor-type relative to the second organic semiconductor material, which is of the other material type.05-19-2011
20110114930ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a mixed organic layer that includes a triphenyl amine derivative and a pyrazine derivative and an emission layer that includes an anthracene derivative, an amine-containing styryl derivative, or any mixture thereof.05-19-2011
20110114932Light Emitting Organic Component and Method for Production Thereof - The invention relates to a light-emitting organic component, in particular a light-emitting organic diode, having an electrode spreading over an electrode surface area and a counter electrode spreading over a counter electrode surface area as well as an organic layer array formed between the electrode and the counter electrode and in electrical contact therewith, an electrical resistance gradient in a direction substantially parallel to the electrode surface area being formed within a region of the organic layer array at least partially overlapping with the electrode surface area. Furthermore, the invention relates to a method for the production of a light-emitting organic component.05-19-2011
20110114925BUFFER BILAYERS FOR ELECTRONIC DEVICES - The present disclosure relates to buffer bilayers, and their use in electronic devices. The bilayer has a first layer including at least one electrically conductive polymer doped with at least one highly-fluorinated acid polymer, and a second layer including inorganic nanoparticles.05-19-2011
20100148155THIN FILM TRANSISTOR, METHOD OF FORMING THE SAME AND FLAT PANEL DISPLAY DEVICE HAVING THE SAME - A thin film transistor (TFT), a method of forming the same and a flat panel display device having the same are disclosed. The TFT includes a buffer layer and a semiconductor layer which are sequentially disposed on a substrate, a gate pattern including an insulating pattern and a gate electrode pattern which are sequentially disposed on the semiconductor layer, source and drain regions defining a portion of the semiconductor layer below the gate pattern as a channel area, formed by doping the semiconductor layer disposed at both sides of the gate pattern with impurities, and extending from both sides of the channel area, a passivation layer which covers the entire surface of the substrate having the gate pattern, a first metal electrode which penetrates a portion of the passivation layer disposed on the source area and a portion of the source region below the portion of the passivation layer to be electrically connected with the source region, and a second metal electrode which penetrates a portion of the passivation layer disposed on the drain area and a portion of the drain region below the portion of the passivation layer to be electrically connected with the drain region. According to the present invention, a metal is infiltrated into source and drain regions to disperse an electric current when a TFT operates, and thus charge mobility is improved, and damage of a drain region caused by the excessive current density is prevented, leading to the long lifespan and excellent performance.06-17-2010
20100171107ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display including: a substrate; pixel electrodes formed on the substrate; a pixel defining layer having openings exposing the plurality of pixel electrodes, formed on the substrate; spacers formed on the pixel defining layer; organic emission layers formed on the pixel electrodes; a common electrode formed on the organic emission layers; and color filters formed on the common electrode, in the openings of the pixel defining layer.07-08-2010
20090057657Method for forming pattern arrays and organic devices including the pattern arrays - The present invention includes forming a hydrophobic thin film on a substrate, removing a portion of the first hydrophobic thin film to form a first hydrophilic region, coating a first organic solution on the substrate and selectively wetting the first hydrophilic region, drying the first organic solution to form a first organic thin film pattern in the first hydrophilic region, forming a second hydrophobic thin film on the first organic thin film pattern, coating a second organic solution and selectively wetting the second organic solution, and drying the second organic solution to form a second organic thin film pattern.03-05-2009
20110084253ORGANIC LIGHT EMITTING DIODE LIGHTING APPARATUS AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is an organic light emitting diode lighting apparatus and a method for manufacturing the same. The organic light emitting diode lighting apparatus may include a transparent substrate main body having a plurality of groove lines formed thereon, an auxiliary electrode formed in at least one of the plurality of groove lines, a first electrode formed on the substrate main body so as to contact the auxiliary electrode, an organic emission layer formed on the first electrode and a second electrode formed on the organic emission layer.04-14-2011
20100140593ORGANIC THIN-FILM TRANSISTORS - A thin-film transistor has a semiconducting layer which comprises a halogen-coordinated metal phthalocyanine complex of Formula (I) or Formula (II):06-10-2010
20090315025LIQUID CRYSTALLINE ORGANIC SEMICONDUCTOR MATERIAL AND ORGANIC ELECTRON DEVICE - A liquid crystalline organic semiconductor material, having a compound having at least one bonding form selected from the group consisting of (p-type organic semiconductor compound residue)-(n-type organic semiconductor compound residue)-(p-type organic semiconductor compound residue), and (n-type organic semiconductor compound residue)-(p-type organic semiconductor compound residue)-(n-type organic semiconductor compound residue).12-24-2009
20090072225FLAT PANEL DISPLAY DEVICE HAVING ORGANIC THIN FILM TRANSISTOR AND MANUFACTURING METHOD THEREOF - Provided is a flat panel display device having an organic TFT and a manufacturing method thereof. The flat panel display device includes a first organic TFT having a first organic semiconductor active layer, and a second organic TFT having a second organic semiconductor active layer. At this point, the particle size of the organic semiconductor crystal of the first organic semiconductor active layer is greater than that of the organic semiconductor crystal of the second organic semiconductor active layer.03-19-2009
20090032809Organic thin film transistor and method of manufacturing the same - Disclosed are an organic thin film transistor and a method of manufacturing the same, in which a crystalline organic binder layer is on the surface of an organic insulating layer and source/drain electrodes or on the surface of the source/drain electrodes. The organic thin film transistor may be improved in two-dimensional geometric lattice matching and interface stability at the interface between the organic semiconductor and the insulating layer or at the interface between the organic semiconductor layer and the electrode, thereby improving the electrical properties of the device.02-05-2009
20090032810ORGANIC TRANSISTOR AND ACTIVE-MATRIX SUBSTRATE - An organic transistor includes a gate electrode having a predetermined length, source and drain electrodes overlapping the gate electrode in plan view, a channel region formed of the organic semiconductor between the source and drain electrodes, and a functional portion disposed on a first side of the gate electrode in a length direction thereof and connected to the drain electrode through a strip-like connection wiring line. A strip-like dummy connection wiring line is connected to the drain electrode so as to extend toward a second side of the gate electrode in the length direction thereof and has a width that is less than twice the width of the connection wiring line. The connection wiring line extends to or beyond an edge of the gate electrode on the first side, and the dummy connection wiring line extends to or beyond an edge of the gate electrode on the second side.02-05-2009
20100163859LIGHT EMITTING DEVICE AND ELECTRONIC APPARATUS - A light emitting device which is capable of suppressing deterioration by diffusion of impurities such as moisture, oxygen, alkaline metal and alkaline earth metal, and concretely, a flexible light emitting device which has light emitting element formed on a plastic substrate. On the plastic substrate, disposed are two layers and more of barrier films comprising a layer represented by AlNxOy which is capable of blocking intrusion of moisture and oxygen in a light emitting layer and blocking intrusion of impurities such as an alkaline metal and an alkaline earth metal in an active layer of TFT, and further, a stress relaxation film containing resin is disposed between two layers of barrier films.07-01-2010
20100163858SWITCHING ELEMENT AND METHOD FOR MANUFACTURING THE SAME - A problem of a switching element using for the active layer a carbon nanotube (CNT) dispersion film that can be manufactured at low temperature has been that sufficient electrical contact and thermal conductivity between the CNTs and the source and drain electrode surfaces are not obtained. The switching element of the present invention has a structure in which a mixed layer of carbon nanotubes and a metal material, and a metal layer of the metal material are laminated in this order on source and drain electrodes, and thereby, the CNT-dispersed film and the electrode surfaces can be in firm electrical, mechanical, and thermal contact with each other. Thus, a switching element exhibiting good and stable transistor characteristics is obtained with a low-temperature, convenient, and low-cost process.07-01-2010
20100163855METHOD OF FABRICATING POLYSILICON, THIN FILM TRANSISTOR, METHOD OF FABRICATING THE THIN FILM TRANSISTOR, AND ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE INCLUDING THE THIN FILM TRANSISTOR - A thin film transistor, a method of fabricating the thin film transistor, and an organic light emitting diode (OLED) display device equipped with the thin film transistor of which the thin film transistor includes a substrate, a buffer layer disposed on the substrate, a first semiconductor layer and a second semiconductor layer disposed on the buffer layer, a gate electrode insulated from the first semiconductor layer and the second semiconductor layer, a gate insulating layer insulating the gate electrode from the first semiconductor layer and the second semiconductor layer, and source and drain electrodes insulated from the gate electrode and partially connected to the second semiconductor layer, wherein the second semiconductor layer is disposed on the first semiconductor layer.07-01-2010
20100163852Material for light-emitting device and light-emitting device - The present invention provides a light emitting device material which enables a light emitting device having high efficiency and excellent chromatic purity and durability using a light emitting device material containing a pyrene compound represented by formula (1), wherein any one of R07-01-2010
20100163851ORGANIC BASED DEVICE AND METHOD FOR MANUFACTURE THEREOF - A device comprising a first transparent and electrically conductive layer (07-01-2010
20090321727ORGANIC TRANSISTOR ARRAY, DISPLAY DEVICE AND METHOD OF FABRICATING DISPLAY DEVICE - An organic transistor array includes gate electrodes provided on a substrate, source and drain electrodes provided above or below the gate electrodes via a gate insulator layer, and an organic semiconductor layer opposing the gate electrodes via the gate insulator layer, and forming a channel region between mutually adjacent source and drain electrodes. The organic transistor array in a plan view is sectioned into sections each forming a single pixel, and each section has a closest packed structure.12-31-2009
20110079774STACKED ORGANIC LIGHT EMITTING DIODE - The present invention provides a stacked organic light emitting diode that comprises a first electrode; a second electrode; and at least two light emitting units that are located between the first electrode and the second electrode. The light emitting unit satisfies the following energy relation equation, and includes an n-type organic layer and a p-type organic layer that form NP conjunction, and also includes an n-type doped organic layer that is located between the light emitting units:04-07-2011
20100243991LIGHT EMITTING SYSTEM AND METHODS FOR CONTROLLING NANOCRYSTAL DISTRIBUTION THEREIN - A light emitting system includes a polymer mixture, and a plurality of nanocrystals occupying a predetermined portion of the polymer mixture. The polymer mixture includes at least two polymers that phase-segregate. Method(s) for controlling nanocrystal distribution within the light emitting device are also disclosed.09-30-2010
20100224863ORGANIC EL ELEMENT - To provide an organic EL element in which the hue of display light can be restrained from varying according to a change of the viewing angle. The organic EL element includes: a first electrode (anode) 09-09-2010
20100219399BLOCK COPOLYMER - A block copolymer comprising two or more of blocks of the following formula (1), wherein at least two of a plurality of m's present in the copolymer represent a number of 5 or more, Ar's in adjacent two blocks in the copolymer are mutually different, and the copolymer has two Ar's when composed of 2 blocks of the formula (1), has two or more Ar's when composed of 3 blocks of the formula (1) and has four or more Ar's when composed of 4 or more blocks of the formula (1):09-02-2010
20100219409POLYTHIOPHENES AND DEVICES THEREOF - An electronic device containing a polythiophene09-02-2010
20100219404ORGANIC EL DEVICE - An organic EL device includes: an anode, a cathode and an organic thin-film layer interposed between the anode and the cathode, in which the organic thin-film layer includes: an emitting layer containing a host material and a phosphorescent material; and a hole transporting layer provided adjacent to the anode relative to the emitting layer. The hole transporting layer includes a first hole transporting layer and a second hole transporting layer that are sequentially layered on the anode, in which the first hole transporting layer contains an amino compound substituted by an aromatic substituent represented by a formula (1) below and the second hole transporting layer contains at least one of compounds represented by formulae (2) to (5) below.09-02-2010
20110079775Solution Processable Organic Semiconductors - Semiconductor material, compositions containing the semiconductor material, semiconductor devices containing the semiconductor material, and methods of making semiconductor devices containing the semiconductor material are described. More specifically, the semiconductor material is a small molecule semiconductor that is an anthracene-based compound (i.e., anthracene derivative) that is substituted with two silylethynyl groups as well as two electron donating groups.04-07-2011
20110240983TRIAZINE COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE SAME - Provided is an organic light emitting device having a long continuous driving lifetime. The organic light emitting device includes an anode, a cathode, and an organic compound layer which is sandwiched between the anode and the cathode, in which: one of the anode and the cathode is transparent or semi-transparent; and the organic compound layer contains at least one kind of triazine compound represented by the following general formula (1):10-06-2011
20110240984OLED STABILITY VIA DOPED HOLE TRANSPORT LAYER - An organic light emitting device is provided. The device includes an anode and a cathode. A first organic layer is disposed between the anode and the cathode. The first organic layer is an emissive layer that includes a first organic emitting material. The device also includes a second organic layer disposed between the anode and the first organic layer. The second organic layer is a non-emissive layer. The second organic layer includes an organic small molecule hole transport material having a concentration of 50 to 99 wt %, and an organic small molecule electron transport material having a concentration of 0.1 to 5 wt %. Other materials may be present.10-06-2011
20110240978HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A heterocyclic compound of formula 1 and an organic light-emitting device including an organic layer containing the heterocyclic compound. The heterocyclic compound of Formula 1 may be suitable as a material for an emission layer, an electron transport layer or an electron injection layer of an organic light-emitting device. Due to the inclusion of the heterocylic group in its molecular structure, the heterocyclic compound of Formula 1 may have a high glass transition temperature (Tg) or a high melting point, and may prevent crystallization. An organic light-emitting device manufactured using the heterocyclic compound of Formula 1, in which a chrysene group and an indole group are fused, has excellent durability when stored or operated.10-06-2011
20110240977HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A heterocyclic compound of formula 1 and an organic light-emitting device including an organic layer containing the heterocyclic compound. The heterocyclic compound of Formula 1 may be suitable as a material for an emission layer, an electron transport layer or an electron injection layer of an organic light-emitting device. Due to the inclusion of the heterocylic group in its molecular structure, the heterocyclic compound of Formula 1 may have a high glass transition temperature (Tg) or a high melting point, and may prevent crystallization. An organic light-emitting device manufactured using the heterocyclic compound of Formula 1, which has a symmetrical structure in which a chrysene group and an indole group are fused, has excellent durability when stored or operated.10-06-2011
20110240975POLYMER COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A polymer represented by Formula 1 below:10-06-2011
20110240971Light-Emitting Element, Light-Emitting Device, Electronic Device, and Lighting Device - A light-emitting element that emits light with high luminance and can be driven at low voltage. The light-emitting element includes n (n is a natural number greater than or equal to 2) EL layers between an anode and a cathode, and includes a first layer, a second layer, and a third layer between an m-th (m is a natural number, 1≦m≦n−1) EL layer from the anode and an (m+1)th EL layer. The first layer functions as a charge-generation region, has hole-transport properties, and contains an acceptor substance. The third layer has electron-transport properties and contains an alkali metal or the like. The second layer is formed of a phthalocyanine-based material and is provided between the first layer and the third layer, whereby an injection barrier at the time of injecting electrons generated in the first layer into the m-th EL layer through the third layer can be lowered.10-06-2011
20110240969Organic light-emitting device - An organic light-emitting device including a substrate; a first electrode disposed on the substrate; a second electrode; an organic layer disposed between the first electrode and the second electrode, the organic layer including an emission layer and an electron transport layer, the electron transport layer including an anthracene-based compound and a quinolate-based compound; and at least one first layer disposed between the first electrode and the emission layer, the at least one first layer including a cyano group-containing compound.10-06-2011
20100213453AMBIPOLAR HOST IN ORGANIC LIGHT EMITTING DIODE - Some embodiments provide a compound represented by Formula 1:08-26-2010
20100213452AMBIPOLAR HOST IN ORGANIC LIGHT EMITTING DIODE - Some embodiments provide a compound represented by Formula 1:08-26-2010
20100019236ORGANIC LIGHT EMITTING DEVICE - It is an object of the present invention to provide an organic light emitting device having a long-life optical output. The organic light emitting device according to the present invention is provided with an emission layer including at least a host material, a light emitting material, and another material, wherein the another material has a smaller ionization potential than and almost the same hole mobility as or a greater hole mobility than an ionization potential and a hole mobility of a compound which forms an emission layer-side-interface.01-28-2010
20100090199Organic Semiconductor Film Forming Method, Organic Semiconductor Film and Organic Thin Film Transistor - A method for forming an organic semiconductor film having a high carrier mobility is provided by having an average volatilization rate of a solvent within a prescribed range during a step of drying, at the time of applying a coating solution, which includes an organic semiconductor material and a non-halogen solvent, on a substrate. In such forming method, characteristic fluctuation in repeated use of the organic semiconductor film is suppressed, and an organic thin film transistor having an excellent film forming characteristic even on an insulator with reduced gate voltage threshold can be obtained.04-15-2010
20100193778ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME - An organic light emitting diode display with first and second substrates, and a method of manufacturing the organic light emitting diode display. The first substrate has a plurality of first organic light emitting diodes each having a first emissive area and a first non-emissive area, and a first driving circuit unit for driving the first organic light emitting diodes. The second substrate has a plurality of second organic light emitting diodes each having a second emissive area and a second non-emissive area, and a second driving circuit unit for driving the second organic light emitting diodes. The first emissive areas of the first organic light emitting diodes face the second non-emissive areas of the second organic light emitting diodes, respectively, and the second emissive areas of the second organic light emitting diodes face the first nonemissive area of the first organic light emitting diodes, respectively.08-05-2010
20100193772Thin film transistor and display device - Provided is a thin film transistor capable of improving reliability in the thin film transistor including an oxide semiconductor layer. A thin film transistor including: a gate electrode; a gate insulating film formed on the gate electrode; an oxide semiconductor layer forming a channel region corresponding to the gate electrode on the gate insulating film; a channel protective film formed at least in a region corresponding to the channel region on the oxide semiconductor layer; and a source/drain electrode. A top face and a side face of the oxide semiconductor layer are covered with the source/drain electrode and the channel protective layer on the gate insulating film.08-05-2010
20110084259ORGANIC LIGHT-EMITTING DIODE AND METHOD OF MANUFACTURING THE SAME - An OLED including an electron transport layer having multi-layered structure and a method of manufacturing the same, the method including simultaneously reciprocating first and second deposition sources that include different deposition materials, across a substrate.04-14-2011
20110084257ORGANIC LIGHT EMITTING DIODE DISPLAY AND METHOD OF MANUFACTURING THE SAME - An organic light emitting diode display includes a substrate, a first conductive layer disposed on the substrate, a second conductive layer formed on the first conductive layer, a third conductive layer formed on the first conductive layer or the second conductive layer. A first electrode disposed on the substrate at a display area, the first electrode including at least the first conductive layer, the second conductive layer, and the third conductive layer. An organic emissive layer is disposed on the first electrode. A second electrode is formed on the organic emissive layer. A pad is disposed on the substrate at a pad area neighboring the display area. The pad has the first conductive layer and the third conductive layer surrounding the lateral side of the first conductive layer.04-14-2011
20110084254POLYMER AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A polymer and an organic light-emitting device including the polymer. An example of the polymer is04-14-2011
20110210323ORGANIC ELECTROLUMINESCENT ELEMENT AND DISPLAY DEVICE - An organic electroluminescent element, in which reduction in drive voltage is achieved, is provided. The organic electroluminescent element has an organic layer 09-01-2011
20110210321TRANSPARENT POLYMERIC ELECTRODES FOR ELECTRO-OPTICAL STRUCTURES, PROCESS FOR PRODUCING THE SAME, AND DISPERSIONS USED IN SUCH PROCESSES - The invention concerns a process for producing transparent multi-layer electrodes from conductive polymers, electrodes produced by this process and their use in electro-optical structures.09-01-2011
20110210318MATERIAL FOR ORGANIC ELECTRONIC DEVICE, AND ORGANIC ELECTRONIC DEVICE USING SAME - The present invention provides a novel compound that is capable of largely improving a life time, efficiency, electrochemical stability, and thermal stability of an organic electronic device, and an organic electronic device that comprises an organic material layer comprising the compound.09-01-2011
20110210320ANTHRACENE DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE ELEMENT USING THE SAME - The present invention relates to an anthracene derivative and an organic electroluminescent device using the same. More specifically, the present invention relates to: a novel compound which has a core (for example, an indenoanthracene core) where both an anthracene moiety with excellent device characteristics and a fluorene moiety with excellent fluorescent properties are fused, wherein substituents (for example, a heterocyclic group such as a benzimidazole group, a benzothiazole group, a benzoxazole group, a pyridinyl group or a bipyridinyl group) with an electron transfer capacity are substituted to the core; and an organic electroluminescence element which has improved luminous efficiency, brightness, thermal stability, driving voltage, and lifetime, by comprising an organic layer which is positioned between a positive electrode and negative electrode and contains the novel compound.09-01-2011
20110210319COMPOUND FOR ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM TRANSISTOR USING THE SAME - A compound for an organic thin film transistor represented by the following formula (09-01-2011
20110210316HETEROCYCLIC COMPOUND, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - An object is to provide a novel heterocyclic compound which can be used for a light-emitting element, as a host material of a light-emitting layer in which a light-emitting substance is dispersed. Other objects are to provide a light-emitting element having low driving voltage, a light-emitting element having high current efficiency, and a light-emitting element having a long lifetime. Provided are a light-emitting element including a compound in which a dibenzo[f,h]quinoxaline ring and a hole-transport skeleton are bonded through an arylene group, and a light-emitting device, an electronic device, and a lighting device each using this light-emitting element. The heterocyclic compound represented by General Formula (G1) below is provided.09-01-2011
20110210315NOVEL DONOR-ACCEPTOR FLUORENE SCAFFOLDS: A PROCESS AND USES THEREOF - The present invention relates to novel donor-acceptor fluorene compounds, which can be used as for the fabrication of electroluminescent devices, and a process of preparing said novel compounds. More particularly, the present invention relates to amine donor and nitrile/ester acceptor fluorenes, fluorenones their π-conjugated systems and related compounds, processes for preparing the said compounds including oxidation of fluorenes to corresponding fluorenones and their use in preparing organic electronic devices such as organic light emitting diodes (OLEDs), photovoltaic/solar cell, Field effect transistors and other useful electroluminescent devices. The compounds are prepared by reacting 2H-pyran-2-ones in isolated or rigid conformations with cyclic ketones containing methylene carbonyl moiety in the presence of a base in an organic solvent. The present invention also relates to a new concept and approach to overcome the problem of ‘Green emission defect’ in 9-unsubstituted fluorene-based organic light emitting diodes which occurs due to the conversion of fluorenes to fluorenones that show emission mainly in green-yellow region. In the present invention we have placed donor-acceptor substituents in such a way that donor-acceptor fluorenones show emission in the blue region (instead of green-yellow region) thus improving the blue colour purity and overcoming the problem of green emission defect.09-01-2011
20090085029Photoelectric conversion element and imaging device - A photoelectric conversion element is provided and includes: a conductive thin layer; an organic photoelectric conversion layer including a compound represented by formula (I); and a transparent conductive thin layer, in this order:04-02-2009
20110240967Organic light emitting diode device - An organic light emitting diode device, including a first electrode, a second electrode facing the first electrode, and a light emitting member disposed between the first electrode and the second electrode, the light emitting member including at least one light emitting unit. At least one of the light emitting units may include a first hole injection layer, a second hole injection layer, a hole transport layer, and an emission layer, and a difference between a HOMO energy level of the first hole injection layer and a LUMO energy level of the second hole injection layer may be smaller than about 0.5 eV.10-06-2011
20100187522METHOD OF FORMING AN ORGANIC LIGHT-EMITTING DISPLAY WITH BLACK MATRIX - A method of forming an organic light-emitting display (OLED) includes the steps of providing a substrate, forming a black matrix on the substrate, forming a buffer layer on the black matrix, forming an active layer on the buffer layer, simultaneously patterning the black matrix and the buffer layer, and forming a display electrode and a thin film transistor over the buffer layer.07-29-2010
20100187517ORGANIC EL DEVICE - An organic EL device includes: an anode; a cathode and an organic thin-film layer provided between the anode and the cathode. The organic thin-film layer includes: a fluorescent-emitting layer containing a fluorescent host and a fluorescent dopant; and a phosphorescent-emitting layer containing a first phosphorescent host and a first phosphorescent dopant. The first phosphorescent dopant emits light by receiving exited triplet energy transferred from the fluorescent host. The fluorescent host has a substituted or unsubstituted polycyclic fused aromatic skeleton and has an exited triplet energy gap of 2.10 eV to 3.00 eV.07-29-2010
20100187506ELECTROACTIVE MATERIALS - There is provided a compound having Formula I or Formula II:07-29-2010
20110084261ORGANIC THIN-FILM TRANSISTOR - A bottom-contact type organic thin film transistor comprising at least a gate electrode, an insulator layer, a source electrode, a drain electrode and an organic semiconductor layer, on a substrate, wherein at least one of the source electrode and the drain electrode has a multilayer structure formed by stacking an oxide layer and a metal layer, and the metal layer is surface-modified with an organic thin film layer.04-14-2011
20110084255ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a first electrode and a first layer, wherein the first electrode includes a first element-containing zinc oxide layer and the first layer includes a cyano group-containing compound.04-14-2011
20110084252ELECTRONIC DEVICE - Electronic devices, such as organic thin film transistors, with improved mobility are disclosed. The semiconducting layer comprises layers or striations of an organic semiconductor and graphene, including alternating layers/striations of such materials. The organic semiconductor and graphene layers interact well together because both materials form lamellar sheets. The presence of graphene enhances mobility by correcting molecular packing defects in the organic semiconductor layers, and the conductivity of graphene can be controlled. Finally, both materials are flexible, allowing for flexible semiconductor layers and transistors.04-14-2011
20100176383Organic light emitting display device and method of manufacturing the same - Disclosed is an organic light emitting display device and a method of manufacturing the same. The organic light emitting display device includes the thin film transistor of the drive unit that has the activation layer formed in a structure where the first oxide semiconductor layer and the second oxide semiconductor layer are stacked, the thin film transistor of the pixel unit that has the activation layer formed of the second oxide semiconductor layer, and the organic light emitting diode coupled to the thin film transistor of the pixel unit. The thin film transistor of the drive unit has channel formed on the first oxide semiconductor layer having a higher carrier concentration than the second oxide semiconductor layer, having a high charge mobility, and the thin film transistor of the pixel unit has a channel formed on the second oxide semiconductor layer, having a stable and uniform functional property.07-15-2010
20100032658Novel organic electroluminescent compounds and organic electroluminescent device using the same - Provided are novel organic electroluminescent compounds and organic electroluminescent devices comprising the same as electroluminescent material. Specifically, the organic electroluminescent compounds according to the invention are characterized in that they are represented by Chemical Formula (1):02-11-2010
20100038630Semiconducting siloxane compositions for thin film transistor devices,and making and using the same - Semiconducting siloxane compositions and methods for manufacturing and use thereof in preparing organic thin-film transistors (OTFTs) are described. The semiconducting siloxane compositions can be crosslinked products of polymeric/monomeric compositions that include silane-derivatized crosslinkable organic p-type compounds and p-type semiconducting polymers.02-18-2010
20090321728TRANSPARENT DISPLAY APPARATUS - A transparent display apparatus is provided that is constructed to transmit or block a light of images selectively according to a supply of electric power to a conventional transparent organic light emitting diode. The transparent display apparatus includes a transparent organic light emitting diode having a glass substrate, a transparent anode, a hole transport layer, an emitting layer, an electron transport layer and a transparent cathode. The transparent display apparatus includes an insulating layer stacked on the transparent cathode, and first and second transparent ITOs stacked on the insulating layer to deliver electromotive force onto an entire surface and to transmit or block the light of images according to the on/off state of a power source. The transparent display apparatus also includes an electro chromic layer provided between the first and the second transparent ITOs and including transparent and colorless chemicals. The electro chromic layer forms a color through oxidation-reduction reaction of the chemicals according to the on/off state of the power source to absorb or block the light of images. The transparent display apparatus further includes a substrate stacked on the second transparent ITO.12-31-2009
20110240985ORGANIC THIN FILM TRANSISTOR AND METHOD OF MANUFACTURING THE SAME, AND SEMICONDUCTOR DEVICE HAVING THE ORGANIC THIN FILM TRANSISTOR - There have been problems in that a dedicated apparatus is needed for a conventional method of manufacturing an organic thin film transistor and in that: a little amount of an organic semiconductor film is formed with respect to a usage amount of a material; and most of the used material is discarded. Further, apparatus maintenance such as cleaning of the inside of an apparatus cup or chamber has needed to be frequently carried out in order to remove the contamination resulting from the material that is wastefully discarded. Therefore, a great cost for materials and man-hours for maintenance of apparatus have been required. In the present invention, a uniform organic semiconductor film is formed by forming an aperture between a first substrate for forming the organic semiconductor film and a second substrate used for injection with an insulating film formed at a specific spot and by injecting an organic semiconductor film material into the aperture due to capillarity to the aperture. The insulating film formed at the specific spot enables formation of the organic semiconductor film with high controllability. Further, the insulating film can also serve as a spacer that holds the aperture, that is, an interval (gap) between the substrates.10-06-2011
20090321726ENCAPSULATION FOR ORGANIC OPTOELECTRONIC DEVICES - An organic optoelectronic device includes a substrate, an anode, a cathode, an active region comprising an organic material, an encapsulation that isolates the active region from an ambient environment, wherein the encapsulation comprises a housing, and a first hermetically sealed electrical path through the housing.12-31-2009
20100012928ORGANIC LIGHT EMITTING DISPLAY AND MANUFACTURING METHOD THEREOF - The present invention relates to an organic light emitting device and a manufacturing method thereof. The organic light emitting device according to an exemplary embodiment of the present invention includes a first thin film transistor disposed on a substrate, an organic layer disposed on the first thin film transistor, a pixel electrode disposed on the organic layer and connected to the first thin film transistor, a partition disposed on the pixel electrode and the organic layer, and an organic emission layer disposed on the pixel electrode and contacting the partition. The partition has an organic layer exposing hole that exposes a portion of the organic layer and an opening that exposes a portion of the pixel electrode.01-21-2010
20100012926Organic electroluminescent device - An organic EL device is constructed with a first electrode, a light-emitting layer, a second electrode, and an organic layer which includes a biphenylenediamine compound and is interposed between the first electrode and the light-emitting layer. The organic layer formed between the first electrode and the light-emitting layer has both hole transport and hole injection properties. With this structure, the organic EL device has improved lifetime characteristics in spite of absence of a hole injection layer. A buffer layer including an organic compound with p-type semiconductive property may be further formed between the first electrode and the organic layer including the 4,4′-biphenylenediamine compound to facilitate hole injection from the first electrode and transport an injected hole to the light-emitting layer. Therefore, the organic EL device can have a lower driving voltage, thereby improving a device lifetime.01-21-2010
20100032657ORGANIC TRANSISTOR - An organic transistor having a source electrode, a drain electrode, a gate electrode, and an organic semiconductor layer, wherein the organic semiconductor layer comprises a compound represented by the following general formula [1] or [3]:02-11-2010
20100038633Organic light emitting diode - Provided is an organic light emitting diode including: a first electrode; a second electrode; an organic layer between the first electrode and the second electrode; and a luminous efficiency improvement layer disposed on a surface of the first electrode facing away from the organic layer or a surface of the second electrode facing away from the organic layer, wherein the luminous efficiency improvement layer includes a porphyrazin derivative, a phthalocyanine derivative, a naphthalocyanine derivative, or a combination of at least two compounds of the foregoing.02-18-2010
20100038634LIGHT EMITTING DEVICE MATERIAL AND LIGHT EMITTING DEVICE - A light emitting device material comprises a pyrene compound represented by formula (1) below. Also disclosed is a light emitting device using such a material. (R02-18-2010
20110175075Organic Electro-Luminescence Device - A method of fabricating an organic electro-luminescence device comprising the steps of providing a substrate, an organic chamber, and a sputtering chamber, forming a hole injection layer on the substrate, forming a hole transport layer on the hole injection layer in the organic chamber, forming a light-emitting layer on the hole transport layer in the organic chamber, disposing a metal chelate material on the light-emitting layer and partially doping a CsF compound into the metal chelate material to forming an electron transporting layer in the organic chamber, forming a buffer layer on the electron transporting layer in the organic chamber, transferring the substrate, the hole injection layer, the hole transport layer, light-emitting layer, the electron transporting layer, and the buffer layer form the organic chamber to the sputtering chamber, and forming an electron injection layer on the buffer layer in the sputtering chamber07-21-2011
20110175072ORGANIC LIGHT-EMITTING DEVICE - Provided is an organic light-emitting device that shows high luminous efficiency even when driven at a high luminance. More specifically, provided is an organic light-emitting device, including: an anode (transparent electrode layer) and a cathode (metal electrode layer); and an organic compound layer being interposed between the anode and the cathode, and including an emission layer, in which: the emission layer has a host, a first dopant, and a second dopant; the host includes an aromatic hydrocarbon compound; the first dopant includes a phosphorescent iridium complex; and the second dopant includes a compound having two triarylamine structures.07-21-2011
20110175067ORGANIC LIGHT-EMITTING DIODE - According to one embodiment, there is provided an organic light-emitting diode including an anode and a cathode arranged apart from each other, an emissive layer arranged between the anode and the cathode, a hole injection layer arranged between the anode and the emissive layer and including a polyethylenedioxythiophene, and a hole-transport layer arranged between the hole injection layer and the emissive layer and including a hole-transport material. The emissive layer includes a cathode side first area including a hole transport host material, an electron transport host material and an emitting dopant, and an anode side second area including the hole transport host material and no electron transport host material.07-21-2011
20100065826NOVEL FUSED POLYCYCLIC AROMATIC COMPOUND, PROCESS FOR PRODUCING THE SAME, AND USE THEREOF - In one embodiment of the present invention, a novel fused polycyclic aromatic compound of the present invention is (a) a compound including a benzodichalcogenophenobenzodichalcogenophene (BXBX) skeleton further having an aromatic ring(s) located outside the BXBX skeleton, or (b) a compound including a BXBX skeleton in which a benzene ring is substituted with a heterocyclic ring. The compound can strengthen intermolecular interaction due to greater π electron orbits. This improves an electron field effect mobility of an organic semiconductor device that is manufactured by use of the compound as an organic semiconductor material. Further, since the number of fused rings included in the compound is small, the compound does not cause problems that generally occur in compounds having an extremely large number of fused rings, i.e., poor solubility in solvent and poor atmospheric stability due to high affinity to oxygen. As a result, the fused polycyclic aromatic compound of the present invention can be preferably used as an organic semiconductor material.03-18-2010
20100065831HYBRID ORGANIC LIGHT-EMITTING TRANSISTOR DEVICE AND MANUFACTURING METHOD THEREOF - A hybrid organic light-emitting transistor device and a manufacturing method thereof are provided. The hybrid organic light-emitting transistor device includes at least one organic light-emitting diode device and at least one organic thin-film transistor device placed on the same substrate. The organic light-emitting diode device has a first organic layer placed between an anode and a cathode, and the organic thin-film transistor device has a second organic layer placed on a source electrode and a drain electrode. The first organic layer and the second organic layer are spatially isolated from each other, and an organic material forming the second organic layer is identical to an organic material forming the first organic layer. The hybrid organic light-emitting transistor with a reduced pixel size and an improved aperture ratio can be easily obtained.03-18-2010
20120241731LIGHTING DEVICE - The present invention provides a lighting device, including: a second OLED layer formed on a window; a solar cell formed on the second OLED layer; and a first OLED layer formed on the solar cell.09-27-2012
20120241730ORGANIC EL ELEMENT AND METHOD FOR MANUFACTURING ORGANIC EL ELEMENT - An organic El element includes an organic compound layer including at least an emissive layer interposed between a pair of electrodes, wherein the emissive layer includes a naphthacene derivative and an amount of a naphthacene precursor compound present in the emissive layer is 5.0 parts by weight or less with respect to 100 parts by weight of the naphthacene derivative.09-27-2012
20100237334Benzo-Fused Thiophene or Bezon-Fused Furan Compounds Comprising a Triphenylene Group - Triphenylene containing benzo-fused thiophene compounds are provided. Additionally, triphenylene containing benzo-fused furan compounds are provided. The compounds may be useful in organic light emitting devices, particularly as hosts in the emissive layer of such devices, or as materials for enhancement layers in such devices, or both.09-23-2010
20110095284FUSED POLYCYCLIC AROMATIC COMPOUND AND ORGANIC LIGHT EMITTING DEVICE USING THE COMPOUND - Provided are a novel fused polycyclic aromatic compound having a fluoranthene skeleton and an organic light emitting device having high efficiency and high durability. The organic light emitting device includes a fused polycyclic aromatic compound represented by the following general formula [1] or [2], and the organic light emitting device includes an anode, a cathode, an organic compound layer interposed between the anode and the cathode, in which at least one layer of the organic compound layers includes at least one kind of the fused polycyclic aromatic compound represented by the following general formula [1] or [2].04-28-2011
20100065833Organic field-effect transistor and circuit - The invention relates to an organic field-effect transistor, in particular an organic thin film field-effect transistor comprising a gate electrode, a drain electrode and a source electrode, a dielectric layer which is formed in contact with the gate electrode, an active layer made from an organic material which is in contact with the drain electrode and the source electrode and which is configured electrically undoped, a dopant material layer which contains a dopant material that is an electrical dopant for the organic material of the active layer, and a border surface region in which a planar contact is formed between the active layer and the dopant material layer, wherein mobility of similar electrical charge carriers, namely electrons or holes, in the dopant material layer is no more than half as great as in the active layer.03-18-2010
20100065834INTEGRATED ORGANIC PHOTOVOLTAIC AND LIGHT EMITTING DIODE DEVICE - An integrated organic photovoltaic and electroluminescent device includes an organic light emitting diode and an organic photovoltaic. The OLED and the OPV share a common substrate building layer.03-18-2010
20130187143ORGANIC EL DEVICE AND ANTHRACENE DERIVATIVE - An organic EL device includes: an anode for injecting holes; a phosphorescent-emitting layer; a fluorescent-emitting layer; and a cathode for injecting electrons. The phosphorescent-emitting layer contains a phosphorescent host and a phosphorescent dopant for phosphorescent emission. The fluorescent-emitting layer contains a fluorescent host and a fluorescent dopant for fluorescent emission. The fluorescent host is at least one of an asymmetric anthracene derivative represented by a formula (1) below and a pyrene derivative represented by a formula (2) below.07-25-2013
20100230666AMINE-TYPE POLYMERIC COMPOUND, AND LIGHT-EMITTING ELEMENT COMPRISING THE SAME - Disclased is a polymeric compound having a constitutional unit represented by formula (1a), wherein ring A and ring B independently represent an aromatic hydrocarbon ring which may have a substituent; R1 represents a group represented by formula (2); and R2 represents an aryl group or a monovalent aromatic heterocyclic group which may be substituted by an alkyl group or the like. In formula (2), Ar1 to Ar3 independently represent an arylene group or a divalent group to which two or more arylene groups are attached via a single bond; Ar4 to Ar7 independently represent an aryl group or a monovalent aromatic heterocyclic group; R6 represents a hydrogen atom, an alkyl group, an aryl group or a monovalent aromatic heterocyclic group; Ar1 to Ar7 and R6 may be substituted by an alkyl group or the like; and k and kk independently represent an integer of 0 to 3, provided that at least one of k and kk represents an integer of 1 to 3.09-16-2010
20100230667LIGHT TRANSMITTING SUBSTRATE, METHOD FOR MANUFACTURING LIGHT TRANSMITTING SUBSTRATE, ORGANIC LED ELEMENT AND METHOD FOR MANUFACTURING ORGANIC LED ELEMENT - The present invention is intended to provide an organic LED element in which the extraction efficiency is improved up to 80% of emitted light, and provides a translucent substrate comprising a translucent glass substrate; a scattering layer formed on the glass substrate and comprising a glass which contains a base material having a first refractive index for at least one wavelength of light to be transmitted and a plurality of scattering materials dispersed in the base material and having a second refractive index different from that of the base material; and a translucent electrode formed on the scattering layer and having a third refractive index higher than the first refractive index, wherein distribution of the scattering materials in the scattering layer decreases toward the translucent electrode.09-16-2010
20110101324FUNCTIONAL MOLECULAR ELEMENT, MANUFACTURING METHOD THEREOF, AND FUNCTIONAL MOLECULAR DEVICE - A functional molecule (05-05-2011
20110101329HIGH PERFORMANCE SOLUTION PROCESSABLE SEMICONDUCTING POLYMERS BASED ON AL-TERNATING DONOR ACCEPTOR COPOLYMERS - A benzothiadiazol-cyclopentadithiophene copolymer comprising as repeating unit the group of the formula (I) wherein R is n-hexadecyl or 3,7-dimethyloctyl, and having a number average molecular weight Mn in the range of from 30 to 70 kg/mol is disclosed. The invention also relates to the use of the copolymers as semiconductors or charge transport materials, as thin-film transistors (TFTs), or in semiconductor components for organic light-emitting diodes (OLEDs), for photovoltaic components or in sensors, as an electrode material in batteries, as optical waveguides or for electrophotography applications.05-05-2011
20110175077FUSED POLYCYCLIC COMPOUNDS AND ORGANIC LIGHT-EMITTING DEVICE USING THE SAME - A fused polycyclic compounds is represented by the general formula (I):07-21-2011
20110175074COMPONENTS AND CIRCUIT ARRANGEMENTS INCLUDING AT LEAST ONE ORGANIC FIELD-EFFECT TRANSISTOR - A circuit arrangement comprises a first electronic component, which is an organic field-effect transistor. It comprises a source electrode (07-21-2011
20110175073ORGANIC LIGHT EMITTING DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic light emitting display device having a uniform thin film in a sub-pixel region, and a method of manufacturing the organic light emitting display device. The organic light emitting display device includes a substrate, a pixel electrode disposed on the substrate, and a pixel define layer disposed on the substrate and exposing the pixel electrode, The surface of the pixel electrode is saw toothed or rough in shape.07-21-2011
20110175070ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device including: a substrate; an organic light emitting device on the substrate to display an image; a sealing member on the organic light emitting device; a phase delay layer disposed on the substrate, the organic light emitting device, or the sealing member; a linear polarization layer disposed on the substrate, the organic light emitting device, the sealing member, or the phase delay layer and is located closer to a display surface of the organic light emitting display where the image is displayed than the organic light emitting device, the sealing member, and the phase delay layer are from the display surface; a multi-phase delay layer between the phase delay layer and the linear polarization layer; and a transmittance control layer disposed on the substrate, the organic light emitting device, the sealing member, the phase delay layer, the multi-phase delay layer, or the linear polarization layer.07-21-2011
20110175068POLYMER AND ORGANIC LIGHT EMITTING DEVICE INCLUDING POLYMER - A polymer and an organic light-emitting device including the polymer are provided, wherein the polymer comprises a polymeric unit represented by the Formula:07-21-2011
20110175066ORGANIC LUMINESCENT MATERIALS, COATING SOLUTION USING SAME FOR ORGANIC EMITTING LAYER, ORGANIC LIGHT EMITTING DEVICE USING COATING SOLUTION AND LIGHT SOURCE DEVICE USING ORGANIC LIGHT EMITTING DEVICE - It is an object of the present invention to provide an organic light-emitting device which can emit white light by easily controlling dopant concentrations. The organic light-emitting device has a first electrode (07-21-2011
20110084258ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a substrate; a first electrode on the substrate; a second electrode; an organic layer between the first electrode and the second electrode, the organic layer including an emission layer; and a first layer including a cyano group-containing compound, the first layer being between the first electrode and the emission layer, wherein the first electrode includes an Al-based reflective layer and a transparent conductive layer sequentially stacked on the substrate, the Al-based reflective layer including a first element and nickel (Ni), and the first element includes at least one of lanthanum (La), cerium (Ce), praseodymium (Pr), promethium (Pm), samarium (Sm), europium (Eu), gadolinium (Gd), terbium (Tb), dysprosium (Dy), holmium (Ho), erbium (Er), thulium (Tm), ytterbium (Yb), and lutetium (Lu).04-14-2011
20110073849METAL COMPLEXES OF CYCLOMETALLATED IMIDAZO[1,2-f ]PHENANTHRIDINE AND DIIMIDAZO[1,2-a:1',2'-c ]QUNIAZOLINE LIGANDS AND ISOELECTRONIC AND BENZANNULATED ANALOGS THEREOF - Compounds comprising phosphorescent metal complexes comprising cyclometallated imidazo[1,2-f]phenanthridine and diimidazo[1,2-a:1′,2′-c]quinazoline ligands, or isoelectronic or benzannulated analogs thereof, are described. Organic light emitting diode devices comprising these compounds are also described.03-31-2011
20110073846ORGANIC ELECTROLUMINESCENT ELEMENT, METHOD FOR MANUFACTURING THE ORGANIC ELECTROLUMINESCENT ELEMENT, AND LIGHT EMITTING DISPLAY DEVICE - Disclosed is an organic electroluminescent element having an element structure that can reduce damage to an organic layer during electrode formation and can facilitate the injection of charges from the electrode into the organic layer. The organic electroluminescent element includes an anode, a cathode, and an organic layer held between the anode and the cathode. The organic layer contains a luminescent material. The organic electroluminescent element further includes a transparent protective layer provided between the anode or the cathode and the organic layer. The transparent protective layer contains a bipolar charge transport organic compound and an electron-accepting compound. The transparent protective layer is formed in a period between after the formation of the organic layer and before the formation of the anode or the cathode on the organic layer.03-31-2011
20110073847LAMINATE, PREPARATORY SUPPORT, METHOD FOR PRODUCING LAMINATE, AND METHOD FOR PRODUCING DEVICE - There are provided a laminate, a preparatory support, a laminate production method and a device production method which make it possible to successfully produce a thin device on a flexible substrate which is likely to bend or break. A laminate 03-31-2011
20100237326ORGANIC TRANSISTOR AND MANUFACTURING METHOD THEREOF - An organic transistor including a substrate 09-23-2010
20110095273DEUTERATED COMPOUNDS FOR LUMINESCENT APPLICATIONS - This invention relates to deuterated compounds that are useful in electroluminescent applications. It also relates to electronic devices in which the active layer includes such a deuterated compound.04-28-2011
20100127247POLYMER ELECTRONIC DEVICES BY ALL-SOLUTION PROCESS - A method of producing an electronic or electro-optic device, and the devices produced, includes producing a first electrode by a solution process, producing a second electrode by a solution process, and lamination an active polymer layer between the first and second electrodes.05-27-2010
20110101326ORGANIC FIELD EFFECT TRANSISTOR - An organic field effect transistor including an organic semiconductor layer constituting a current path between a source electrode and a drain electrode wherein the organic semiconductor layer is made of a conjugated polymer having a depletion layer and a conductivity of the organic semiconductor layer is controlled by using a gate electrode, wherein the depletion layer is formed by joining a reductive material being capable of forming Schottky contact with the organic semiconductor layer made of the conjugated polymer. There can be provided an organic field effect transistor using a conjugated polymer as an organic semiconductor and being capable of maintaining an insulation property.05-05-2011
20120119190PHOSPHORESCENT MATERIALS - Compounds comprising a ligand having a quinoline or isoquinoline moiety and a phenyl moiety, e.g., (iso)pq ligands. In particular, the ligand is further substituted with electron donating groups. The compounds may be used in organic light emitting devices, particularly devices with emission in the deep red part of the visible spectrum, to provide devices having improved properties.05-17-2012
20120119191Chemical Compound for Organic Electronic Device and Organic Electronic Device - The present invention relates new compounds and to an organic electronic device comprising at least one substantially organic layer comprising a non fully conjugated chemical compound, which compound is preferably used in electron transport layers, electron injection layers. The invention also includes a process for preparing an organic electronic device, wherein the substantially organic layer comprising a non fully conjugated chemical compound is deposited on a first layer, and a second layer is deposited on the substantially organic layer, preferably a cathode being deposited on the substantially organic layer comprising the non fully conjugated chemical compound.05-17-2012
20100230668Organic Light-Emitting Device with Field-Effect Enhanced Mobility - A two-terminal organic light-emitting device structure is presented with low absorption losses and high current densities. Light generation and emission occur at a predetermined distance from any metallic contact, thereby reducing optical absorption losses. High current densities and thus high emitted light intensity are achieved by combining two types of conduction in one device: by combining space charge limited conduction and field-effect conduction or by combining ohmic conduction and field-effect conduction, thereby optimizing the current densities. This results in a very high local concentration of excitons and therefore a high light intensity, which can be important for applications such as organic lasers, and more in particular electrically pumped organic lasers.09-16-2010
20100230664LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - To provide a light emitting device high in reliability with a pixel portion having high definition with a large screen. According to a light emitting device of the present invention, on an insulator (09-16-2010
20110248256TOP-EMITTING OLED DEVICE WITH LIGHTS-SCATTERING LAYER AND COLOR-CONVERSION - A top-emitting OLED device, comprising: one or more OLEDs formed on a substrate; a light-scattering layer formed over the one or more OLEDs; a transparent cover; one or more color filters formed on the transparent cover; a color-conversion material layer formed over the color filters, or formed over or integral with the light-scattering layer; wherein the substrate is aligned and affixed to the transparent cover so that the locations of the color filters and color conversion material correspond to the location of the OLEDs, and the color-conversion material layer, color filters, and the light-scattering layer are between the cover and substrate, and a low-index gap is formed between the light-scattering layer and the color filters, with no light-scattering layer being positioned between the color conversion material layer and the low-index gap, wherein the color-conversion material layer is formed integrally with the light-scattering layer.10-13-2011
20110248250ORGANIC LIGHT EMITTING DEVICE AND MATERIALS FOR USE IN SAME - The present invention provides an OLED in which an organic thin film layer comprising a single layer or plural layers is provided between a cathode and an anode, where the organic thin film layer comprises at least one light emitting layer, and the at least one light emitting layer comprises (a) a host material represented by the following Formula (1): Ra—Ar10-13-2011
20120146004Organic Light-Emitting Display Apparatus and Method of Manufacturing the Same - In an organic light-emitting display apparatus and a method of manufacturing the same, the organic light-emitting display apparatus comprises: at least one transistor, each including a semiconductor layer, a gate electrode, and source and drain electrodes; a first capacitor including a first electrode formed on the same plane as the semiconductor layer, a second electrode formed on the same plane as the gate electrode, and a third electrode formed on the same plane as the source and drain electrodes; a second capacitor including a first electrode formed on the same plane as the semiconductor layer and comprising ion impurities, and a second electrode formed on the same plane as the gate electrode; a pixel electrode formed on the same plane as the gate electrode and electrically connected to the transistor; a light-emitting layer disposed on the pixel electrode; and an opposite electrode disposed on the light-emitting layer and facing the pixel electrode.06-14-2012
20110101327Electronic Devices Comprising Metal Complexes Having Isonitrile Ligands - The present invention relates to electronic devices, in particular organic electroluminescent devices, comprising metal complexes which contain isonitrile ligands.05-05-2011
20110101325ORGANIC PHOTOELECTRIC CONVERSION ELEMENT - An organic photoelectric conversion element having a pair of electrodes and a functional layer arranged between the electrodes, wherein the functional layer contains an electron-accepting compound and a polymer having a repeating unit which is composed of a structure represented by formula (1) and a structure represented by formula (2):05-05-2011
20110073848ORGANIC ELECTROLUMINESCENCE DEVICE - A material for a light emitting device containing a compound represented by the following formula (1):03-31-2011
20110073853ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided n organic light-emitting diode luminaire. The luminaire includes a first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a small molecule host material having dispersed therein a first dopant having a first emitted color and a second dopant having a second emitted color. The overall emission color is white.03-31-2011
20110073852ORGANIC ELECTROLUMINESCENT DEVICE - A problem of the invention is to provide an organic EL device having a high efficiency, a low driving voltage and a long life, by combining various materials for organic EL device, which are excellent in an injection or transportation performance of holes or electrons, and in stability and durability in a thin film, so as to enable the respective materials to effectively reveal their characteristics. The invention relates to an organic electroluminescent device including at least an anode electrode, a hole-injecting layer, a hole-transporting layer, an emitting layer, an electron-transporting layer and a cathode electrode in this order, in which the hole-injecting layer contains an arylamine compound having, in its molecule, a structure in which three or more triphenylamine structures are connected through a single bond or a hetero atom-free divalent group; and the hole-transporting layer contains an arylamine compound having two triphenylamine structures in its molecule.03-31-2011
20110073845Organic Electroluminescence Device - An organic electroluminescence device includes an organic layer disposed between at least one pair of electrodes, wherein the organic layer includes at least one fluorescent compound selected from compounds represented by the following general formulae (1) and (2):03-31-2011
20110073851ORGANIC ELECTROLUMINESCENT ELEMENT, ILLUMINATOR AND DISPLAY - An organic electroluminescent element containing an anode and a cathode having therebetween a light emitting layer, wherein the light emitting layer contains a guest compound having a substructure represented by the following Formula (A):03-31-2011
20110073844White Organic Light Emitting Device - A white organic light emitting device having a stack structure of blue fluorescence and red/green phosphorescence is disclosed, in which efficiency of the blue fluorescence is improved to increase lifespan of the white organic light emitting device, color quality is improved, and power consumption is reduced.03-31-2011
20110073843Organic Light Emitting Display and Process for its Manufacturing - An organic electro-luminescent display is provided, including a thin layer (03-31-2011
20110073850ORGANIC ELECTROLUMINESCENT ELEMENT, ILLUMINATOR AND DISPLAY - An organic electroluminescent element containing an anode and a cathode having therebetween a light emitting layer, wherein the light emitting layer contains a guest compound having a substructure represented by the following Formula (A):03-31-2011
20110068331ORGANIC LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - An organic light emitting device comprises a first substrate, a first electrode formed on the first substrate, a hole transporting layer formed on the first electrode, a light emitting layer formed on the hole transporting layer, a second electrode formed on the light emitting layer; and a mixture layer formed between the hole transporting layer and the light emitting layer, where the mixture layer including a hole transporting functioning material, wherein the hole transporting functioning material and the light emitting functioning material have concentration gradient respectively.03-24-2011
20120126209ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device that includes an anode, an emitting layer that includes a host and a dopant, a blocking layer, an electron injecting layer, and a cathode where the blocking layer includes an aromatic heterocyclic derivative, the triplet energy E05-24-2012
20120126212Light-Emitting Element, Light-Emitting Device, Lighting Device, and Electronic Devices - A light-emitting element which at least includes a monomolecular layer including a luminescent center material with a fluorescent light-emitting property, and a monomolecular layer including a host material with a carrier (electron or hole)-transport property and a band gap larger than a band gap (note that a band gap refers to the energy difference between a HOMO level and a LUMO level) of the luminescent center material, between a pair of electrodes, in which the monomolecular layer including the host material and the monomolecular layer including the luminescent center material share the same interface, is provided.05-24-2012
20110062427ORGANIC LIGHT EMITTING DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An organic light emitting display device (OLED) suppressing a resonance effect and having an enhanced luminance, and a method of fabricating the same, are disclosed. One embodiment of the OLED includes: a substrate; a first electrode disposed over the substrate and having a reflective layer; an organic layer disposed over the first electrode and having a white emission layer; a second electrode disposed over the organic layer; and a transmittance controlled layer (TCL) disposed over the second electrode and having an optical path length of about 260 to about 1520 Å.03-17-2011
20110062424POLYMER COMPOSITIONS COMPRISING ADDITIVE BLOCK COPOLYMERS - Disclosed herein are some embodiments related to a polymer composition comprising a base polymer and a block copolymer additive. Laminated constructs, methods of preparing the polymer compositions and the laminate constructs, and devices related thereto are also disclosed.03-17-2011
20120119199ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - The present invention provides an organic EL display device that has high out-coupling efficiency of light. The organic EL display device includes a semi-transparent cathode having high light reflectivity, high light transparency, low light absorptivity, and good electron injection properties. The organic EL display device of the present invention includes an organic EL element that includes an anode, an organic layer, an electron injection layer, and a cathode stacked in this order toward a viewing side, wherein the cathode is a thin film made of silver or a silver alloy, the electron injection layer includes a first electron injection layer arranged on the organic layer side and a second electron injection layer arranged on the cathode side, the first electron injection layer is formed as a thin film containing lithium fluoride, the second electron injection layer is formed as a thin film containing a magnesium-silver alloy that has a silver concentration of more than 70 wt % and less than 100 wt %, and an average total film thickness of the cathode and the electron injection layer is not less than 15 nm and not more than 25 nm.05-17-2012
20120119198FULLERENE DERIVATIVES - A fullerene derivative having a partial structure represented by formula (1):05-17-2012
20120119193PHOTOELECTRIC ELEMENT - A photoelectric element provided with an electron transport layer having excellent electron transport property and sufficiently wide reaction interface, and that has excellent conversion efficiency.05-17-2012
20120119196ORGANIC ELECTROLUMINESCENT ELEMENT - An organic electroluminescence device includes a cathode, an anode, and a single-layered or multilayered organic thin-film layer provided between the cathode and the anode. The organic thin-film layer contains an organic compound represented by a formula (1) below and a phosphorescent material. The triplet energy Eg(T) of the organic compound represented by the formula (1) is larger than that of the phosphorescent material.05-17-2012
20120119195NOVEL ORGANIC SEMICONDUCTIVE MATERIAL AND ELECTRONIC DEVICE USING THE SAME - To provide an organic semiconductive material, expressed by the following general formula I: General Formula I where R05-17-2012
20120119194ORGANIC ELECTROLUMINESCENT ELEMENT - Provided is a high-luminance, long-life laminated organic electroluminescent element. The organic electroluminescent element has a composition in which a plurality of light-emitting units, including at least one organic light-emitting layer, are laminated between a positive electrode and a negative electrode, and in which a linking layer is held between the respective light-emitting units. The linking layer is formed by laminating, in succession from the positive electrode side, an electron generating/transport section, an intermediate layer, and a hole generating/transport section, which contain at least one metal selected from a group consisting of an alkali metal, alkaline earth metal, rare earth metal, alloy of these metals, and compound of these metals. Preferably the intermediate layer contains an electrical insulating non-semiconductive substance having a specific resistance which is between 1.0×1005-17-2012
20110042657High Efficiency Electroluminescent Devices and Methods for Producing the Same - Aspects of the disclosure include electroluminescent devices and methods for making the same. The devices include a substrate, a hole-injection electrode layer, an electroluminescent layer, and an electron-injection electrode layer, such as a layer that includes an air-stable, low work function material, which layer is capable of achieving efficient electron injection with reduced current leakage. In certain embodiments, the devices may contain an efficient electron injection layer that includes a composition comprising a polymer, e.g., a polymer that contains polar components (such as a polar functional group), and a metal diketonate. In certain embodiments, the devices may contain an electron injection layer that includes polyethylene glycol dimethyl ether and barium or calcium acetylacetonate. Methods of manufacturing such devices, for instance, employing a solution processing step for the deposition of an electron injection layer, as well as the use of the produced device(s) in electroluminescent displays is also provided herein.02-24-2011
20110049489Top-Gate Bottom-Contact Organic Transistor - Top-gate, bottom-contact organic thin film transistors are provided. The transistors may include metal bilayer electrodes to aid in charge movement within the device. In an embodiment, an organic transistor includes a drain electrode and a source electrode disposed over a first region of a substrate, a transition metal oxide layer disposed over and in direct physical contact with the drain electrode and the source electrode, an organic preferentially hole conducting channel layer disposed over the metal oxide and between the drain electrode and the source electrode, and a gate electrode disposed over the channel.03-03-2011
20110049488HETEROCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - Embodiments of the present invention are directed to heterocyclic compounds and organic light-emitting devices including the heterocyclic compounds. The organic light-emitting devices using the heterocyclic compounds have high-efficiency, low driving voltages, high luminance and long lifespans.03-03-2011
20090026448ELECTRONIC COMPONENT, METHOD FOR ITS PRODUCTION AND ITS USE - The present invention relates to an electronic component having at least one anode, at least one cathode, at least one charge injection layer, at least one layer of an organic semiconductor and at least one layer situated between the charge injection layer and the organic semiconductor layer, which component is characterized in that the layer situated between the charge injection layer and the organic semiconductor layer and the organic semiconductor layer are obtainable by coating the charge injection layer with a mixture composing at least one material which can be made insoluble by means of chemical reaction, and at least one organic semiconductor, method for producing said component and use of said component.01-29-2009
20110042651LIQUID CRYSTALLINE RYLENE TETRACARBOXYLIC ACID DERIVATIVES AND USE THEREOF - The present invention relates to liquid-crystalline rylenetetracarboxylic acid derivatives, to processes for their preparation and to their use as n-type organic semiconductors for producing organic field-effect transistors and solar cells.02-24-2011
20110042653Near-Infrared Absorbing Film Compositions - A curable liquid formulation containing at least (i) one or more near-infrared absorbing triphenylamine-based dyes, and (ii) one or more casting solvents. The invention is also directed to solid near-infrared absorbing films composed of crosslinked forms of the curable liquid formulation. The invention is also directed to a microelectronic substrate containing a coating of the solid near-infrared absorbing film as well as a method for patterning a photoresist layer coated on a microelectronic substrate in the case where the near-infrared absorbing film is between the microelectronic substrate and a photoresist film.02-24-2011
20110042658ANTHANTHRENE BASED COMPOUND AND SEMICONDUCTOR DEVICE - An anthanthrene based compound of the structural formula (1) is disclosed:02-24-2011
20110042660ORGANIC LUMINESCENT MEDIUM AND ORGANIC EL DEVICE - Provided is an organic luminescent medium containing a specific diaminopyrene derivative and a specific anthracene derivative. Also provided are an organic electroluminescence device capable of emitting light having a short wavelength (such as blue light) with high luminous efficiency and having a long lifetime by having such constitution that the organic EL device contains one or more organic thin film layers including a light emitting layer between a cathode and an anode, and at least one layer of the organic thin film layers contains the organic luminescent medium, and an organic luminescent medium that can be used in an organic thin film layer of the organic EL device.02-24-2011
20110042665ORGANIC PHOTOELECTRIC CONVERSION ELEMENT AND MANUFACTURING METHOD THEREFOR - An organic photoelectric conversion element including and anode, a cathode, an active layer disposed between the anode and the cathode, and a functional layer disposed between the active layer and the anode so as to contact the anode, wherein the functional layer is formed by a coating method using a solution having a pH of 5 to 9, and the anode is formed by a coating method.02-24-2011
20110042652ELECTROACTIVE MATERIALS - There is provided an electroactive material having Formula I02-24-2011
20110042654Organic compound, and organic photoelectric device comprising the same - Disclosed is an organic compound represented by the following Chemical Formula 1 that easily dissolves in an organic solvent, and that is applicable as a host material of an emission layer of an organic photoelectric device since it emits fluorescence and phosphorescence at a red wavelength through a blue wavelength.02-24-2011
20120126210Light-Emitting Element Material, Light-Emitting Element, Electronic Device, and Lighting Device - A light-emitting element material including an ionic iridium complex in which a 4,4′-bipyrimidine structure is coordinated to iridium is provided. Alternatively, a light-emitting element material including an ionic iridium complex represented by the following structural formula (1) is provided. In addition, a light-emitting element including the light-emitting element material is provided.05-24-2012
20100301322Stilbene Derivatives, Light-Emitting Element, Display Device, and Electronic Device - A novel stilbene derivative is provided with motivation of providing a blue emissive material showing excellent color purity. The use of the stilbene derivative of the present invention allows the fabrication of a blue-emissive light-emitting element with excellent color purity. The invention also includes an electronic device equipped with a display portion in which the stilbene derivative is employed. The stilbene derivative of the present invention is represented by formula (1), in which Ar12-02-2010
20110031476ORGANIC ELECTROLUMINESCENCE ELEMENT - The present invention provides an organic EL element having a multi-photon structure, in which optical absorption in the visible region caused by a charge-transfer complex in a conventional intermediate layer structure is inhibited, and the resistance of this intermediate layer to a counter career is improved, thus allowing high efficiency and a long operation life of the element.02-10-2011
20110031482ORGANIC ELECTROLUMINESCENT ELEMENT AND METHOD OF MANUFACTURING THE SAME - An organic electroluminescent element comprising: an organic laminate comprising at least an light emission layer formed via a wet process, the light emission layer comprising a host material and a guest material; and a pair of electrodes, wherein a solvent used for forming the light emission layer has a boiling point of 105° C. or less and a saturation vapor pressure at 20° C. of 20 mmHg or more, and a method of manufacturing the organic electroluminescent element02-10-2011
20090200542Compounds and Organic Light Emitting Device Using the Same - Disclosed is an organic light emitting device. The organic light emitting device comprises a first electrode, organic material layer(s) comprising a light emitting layer, and a second electrode. The first electrode, the organic material layer(s), and the second electrode form layered structure and at least one layer of the organic material layer(s) include the compound of Formula 1 or the compound of Formula 1 into which a thermosetting or photo-crosslinkable functional group is introduced.08-13-2009
20110248257COMPOUND FOR AN ORGANIC PHOTOELECTRIC DEVICE, ORGANIC PHOTOELECTRIC DEVICE, AND DISPLAY DEVICE INCLUDING THE SAME - A compound for an organic photoelectric device, an organic photoelectric device, and a display device including the same, the compound being represented by the following Chemical Formula 1:10-13-2011
20110248255ORGANIC THIN FILM TRANSISTOR ARRAY PANEL AND MANUFACTURING METHOD THEREOF - A method of manufacturing a thin film transistor array panel is provided, the method includes forming a gate line on a substrate; forming a gate insulating layer on the gate line; forming a data line and a drain electrode on the gate insulating layer; forming an organic semiconductor layer on the data line, the drain electrode and an exposed portion of the gate insulating layer between the data line and the drain electrodel; forming a protective member fully covering the organic semiconductor layer; forming a passivation layer on the protective layer, the data line, and the drain electrode; forming a contact hole in the passivation layer to expose a portion of the drain electrode; and forming a pixel electrode on the passivation layer, the pixel electrode connected to the drain electrode through the contact hole.10-13-2011
20110248248ORGANIC SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An organic semiconductor device includes a gate electrode above a substrate. A gate insulation film is over the gate electrode. A first electrode is above the gate insulation film. A second electrode is above the gate insulation film. The second electrode is annular and surrounds the first electrode. An organic semiconductor layer is above the gate insulation film and over the first electrode. The second electrode surrounds the organic semiconductor layer and defines an outer periphery of the organic semiconductor layer. A conductive guiding member is above the gate insulation film. The conductive guiding member is annular and surrounds the second electrode. A protective film is above the gate insulation film and over the organic semiconductor layer and the second electrode. The conductive guiding member surrounds the protective film and defines an outer periphery of the protective film.10-13-2011
20110248247ORGANIC EL DISPLAY UNIT, METHOD OF MANUFACTURING THE SAME, AND SOLUTION USED IN METHOD - An organic electroluminescence display unit includes: a lower electrode for each device; a first hole injection/transport layer provided on the lower electrode for each device; a second organic light emitting layer of the first color provided on the first hole injection/transport layer for the second organic electroluminescence device; a second hole injection/transport layer provided on the entire surfaces of the second organic light emitting layer and the first hole injection/transport layer for the first organic electroluminescence device, and being made of a low molecular material; a blue first organic light emitting layer provided on the entire surface of the second hole injection/transport layer; and an electron injection/transport layer having at least one of electron injection characteristics and electron transport characteristics, and an upper electrode that are provided in sequence on the entire surface of first organic light emitting layer.10-13-2011
20110248245PIXEL STRUCTURE OF ORGANIC LIGHT EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF - A pixel structure of an organic light emitting diode display includes a first transistor and a second transistor. The first transistor includes a first drain electrode and a first source electrode. When a voltage difference is provided between the first drain electrode and the first source electrode, the first transistor has a first subthreshold slope (SS). The second transistor includes a second drain electrode and a second source electrode. When the voltage difference is provided between the second drain electrode and the second source electrode, the second transistor has a second SS, and the second SS is larger than the first SS.10-13-2011
20110248244INDEPENDENTLY CONTROLLED STACKED INVERTED ORGANIC LIGHT EMITTING DIODES AND A METHOD OF MANUFACTURING SAME - An OLED apparatus is provided that includes a first electrode having a first polarity, and an electrode arrangement spaced apart from the first electrode and having a second polarity. The OLED apparatus also includes a first organic emissive layer interposed between the first electrode and the electrode arrangement, and a second electrode spaced apart from the electrode arrangement in a direction opposite the first electrode. The second electrode has the first polarity. The OLED apparatus further includes a second organic emissive layer interposed between the second electrode and the electrode arrangement, and a drive circuit for providing a first energizing signal to the first electrode and the electrode arrangement and a second energizing signal to the second electrode and the electrode arrangement. A method for manufacturing an OLED array is provided.10-13-2011
20110253989ORGANIC ELECTRONIC CIRCUIT - The invention concerns an organically electronic circuit (10-20-2011
20100258788Compositions comprising novel compounds and electronic devices made with such compositions - The present invention relates to novel compounds and polymers, compositions comprising novel compounds or polymers, and electronic devices comprising at least one layer containing the compound or polymer.10-14-2010
20100295027ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device includes: an anode; a cathode; and an organic thin-film layer provided between the anode and the cathode and including at least three emitting layers. The organic thin-film layer includes: a first emitting layer adjacent to the anode; a second emitting layer adjacent to the cathode; and a third emitting layer interposed between the first emitting layer and the second emitting layer. The first emitting layer, the second emitting layer and the third emitting layer contain phosphorescent dopants. The first emitting layer and the second emitting layer use fused polycyclic aromatic derivatives as host materials.11-25-2010
20100295033ORGANIC ELECTROLUMINESCENCE ELEMENT AND METHOD FOR MANUFACTURING THE SAME - An organic electroluminescence element includes: a substrate (11-25-2010
20100243993ORGANIC THIN FILM TRANSISTOR AND ORGANIC THIN FILM LIGHT-EMITTING TRANSISTOR - An organic thin film transistor including a substrate having thereon at least three terminals of a gate electrode, a source electrode and a drain electrode, an insulator layer and an organic semiconductor layer, with a current between a source and a drain being controlled upon application of a voltage to the gate electrode, wherein the organic semiconductor layer includes a specified organic compound having an aromatic heterocyclic group in the center thereof; and an organic thin film light emitting transistor utilizing an organic thin film transistor, wherein the organic thin film transistor is one in which light emission is obtained utilizing a current flowing between the source and the drain, and the light emission is controlled upon application of a voltage to the gate electrode, and is made high with respect to the response speed and has a large ON/OFF ratio, are provided.09-30-2010
20100078631Organic light emitting diode display device - The OLED display device includes a first stack and a second stack that are separated from each other between an anode electrode and a cathode electrode, with a charge generation layer sandwiched between the first stack and the second stack, each of the first stack and the second stack having an emission layer. The first stack includes a blue emission layer formed between the anode electrode and the CGL. The second stack includes a fluorescent green emission layer and a phosphorescent red emission layer formed between the cathode electrode and the CGL. The blue emission layer includes one of a fluorescent blue emission layer and a phosphorescent blue emission layer.04-01-2010
20110248253ORGANIC ELECTROLUMINESCENCE ELEMENT - The electroluminescence element comprises the light-reflective-electrode separated from the luminous point by distance “d” satisfying the following formula.10-13-2011
20110248251NITROGEN-CONTAINING HETEROCYCLIC DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE ELEMENT USING NITROGEN-CONTAINING HETEROCYCLIC DERIVATIVE - Provided are a nitrogen-containing heterocyclic derivative having a specific structure containing a pyrazine skeleton in the center thereof, a hole injecting material or hole transporting material for an organic electroluminescence (EL) device, a light emitting material for an organic EL device, and an electron injecting material or electron transporting material for an organic EL device each containing the nitrogen-containing heterocyclic derivative, an organic EL device which includes one or a plurality of organic layers interposed between a cathode and an anode and in which at least one layer of the organic layers contains the nitrogen-containing heterocyclic derivative, and an apparatus including the organic EL device. The organic EL device shows high luminous brightness and high luminous efficiency even at a low voltage as compared with a conventional device.10-13-2011
20100244006ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device is provided and includes: a cathode; an anode; and at least one organic layer between the cathode and the anode. The at least one organic layer includes a light emitting layer containing at least one light emitting material. A compound represented by the following formula (I) is contained in the at least one organic layer.09-30-2010
20110175079COMPOUND HAVING SUBSTITUTED ANTHRACENE RING STRUCTURE AND PYRIDOINDOLE RING STRUCTURE AND ORGANIC ELECTROLUMINESCENCE DEVICE - The present invention provides an organic compound having excellent properties, which is excellent in electron-injection/transport performance, has hole-blocking ability and is high stability in a thin-film state, as a material for an organic electroluminescence device having a high efficiency and a high durability, and provides is an organic electroluminescence device having a high efficiency and a high durability using the compound. The present invention relates to a compound having a substituted anthracene ring structure and a pyridoindole ring structure represented by general formula (1); and an organic electroluminescence device having a pair of electrodes and at least one organic layer interposed between the electrodes in which the at least one organic layer contains the compound.07-21-2011
20080230772DISPLAY DEVICE AND METHOD OF MANUFACTURING THE DISPLAY DEVICE - A method of manufacturing a display device includes a step of forming an island-shaped first electrode, a step of forming a first insulation film, a step of forming a second insulation film, a step of removing the first insulation film, which is exposed from the second insulation film, in a self-alignment manner by using the second insulation film as a mask, a step of coating a liquid-phase material on the first electrode which is exposed from the first insulation film, and then drying the liquid-phase material, thus forming an organic active layer, and a step of forming a second electrode on the organic active layer. The first insulation film has higher lyophilic properties to the liquid-phase material for forming the organic active layer than the second insulation film.09-25-2008
20100065827COMPOUNDS AND ORGANIC LIGHT EMITTING DIODE USING THE SAME - Disclosed are new compounds and an organic light emitting diode using the same. The organic light emitting diode using the new compound according to the present invention exhibits excellent characteristics in terms of actuating voltage, light efficiency, and lifespan.03-18-2010
20090001360ORGANIC EL DISPLAY AND METHOD FOR PRODUCING THE SAME - The present invention provides an organic electroluminescence display having an organic EL element and a thin film field-effect transistor formed on the organic EL element, wherein an electrically conductive etching protective layer which is electrically connected to an upper electrode is disposed between the upper electrode and the thin film field-effect transistor, a protective insulating layer is disposed between the electrically conductive etching protective layer and the thin film field-effect transistor, and a source electrode or a drain electrode of the thin film field-effect transistor and the electrically conductive etching protective layer are electrically connected through a contact hole formed in the protective insulating layer; and a method for producing thereof.01-01-2009
20090001362Organic Thin Film Transistor and Manufacturing Process the Same - Described is a SIT type organic thin film transistor in which gate electrodes are formed as a conductive layer where a plurality of wire-shaped conductive materials are arranged in such a manner that a distance to the nearest wire is 100 nm or less at any point in the space between the wires or a semiconductor portion (B) between the gate electrodes has a rectangular cross section formed by a length of shorter sides in the range of 20 nm to 200 nm and a length of longer side 2 μm or more. This provides an organic thin film transistor which can be fabricated easily at a low temperature, at a low cost, and with high-speed drive ability, a high ON/OFF ratio, and a high controllability.01-01-2009
20090001359Redox Systems for Stabilization and Life Extension of Polymer Semiconductors - The invention relates to an organic electronic component with improved voltage stability and a method for producing it, wherein the voltage stability in the device is improved by targeted addition of additives and/or by formation of an interlayer. The invention for the first time makes it possible to stabilize organic electronic components by modification with a reducing, oxidizing and/or redox system comprising one and/or more functional materials and/or by incorporation of one or more interlayers comprising, as main constituent, a reducing, oxidizing and/or redox system, primarily in the area of relatively high voltages.01-01-2009
20090001357Novel Condensed Polycyclic Aromatic Compound and Use Thereof - The object of the present invention to provide an organic semiconductor device comprising an organic semiconductor material satisfying both the requirement of high electron field-effect mobility and high on/off current ratio. The present invention provides a novel condensed polycyclic aromatic compound satisfying both the high electron field-effect mobility and high on/off current ratio required for organic semiconductor materials.01-01-2009
20090001361Thin-film transistor device and a method for manufacturing the same - The present invention provides a method of manufacturing a thin-film transistor device. This method enables improvement in performance of a complementary TFT circuit incorporated in a thin- and light-weighted image display device or a flexible electronic device and also enables reduction of power consumption and reduction of manufacturing cost of the circuit. Further in the method, the number of manufacturing steps is decreased so that mass production and growth in size of thin film transistor devices are facilitated through a printing technique. In this method, electrodes forming n-type and p-type TFT and an organic semiconductor are made of the same material in both types of TFT by the solution-process and/or printable process method. A first polarizable thin-film 01-01-2009
20090001358ORGANIC LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic light emitting device and a method of manufacturing the same are disclosed. The organic light emitting device includes a substrate, a gate electrode on the substrate, a first insulating film insulating the gate electrode, a semiconductor layer positioned opposite to the gate electrode, a second insulating film insulating the semiconductor layer, source and drain electrodes connected to the semiconductor layer, a first electrode connected to one of the source and drain electrodes, a third insulating film including an opening that exposes the first electrode, a second electrode positioned opposite to the first electrode, and a light emitting layer positioned between the first electrode and the second electrode. A taper angle of an edge area of the third insulating film contacting the first electrode lies substantially in a range between 10° and 50°.01-01-2009
20090001355POLYMERIC MATERIAL, METHOD OF FORMING THE POLYMERIC MATERIAL, AND METHOD OF FORMING A THIN FILM USING THE POLYMERIC MATERIAL - A method of forming a polymeric material with a pendant polycyclic aromatic compound precursor includes forming a polycyclic aromatic compound precursor (e.g., a pentacene precursor) including at least one polymerizable functionality, and polymerizing the polymerizable functionality to form the polymeric material with the pendant precursor.01-01-2009
20090001353HETEROPYRENE-BASED SEMICONDUCTOR MATERIALS FOR ELECTRONIC DEVICES AND METHODS OF MAKING THE SAME - A thin layer of organic semiconductor material comprising a comprising an organic semiconductor thin film material is disclosed in which the thin film material substantially comprises a heteropyrene compound or derivative. In one embodiment, a thin film transistor comprises a layer of the organic semiconductor material. Further disclosed is a process for fabricating an organic thin-film transistor device, preferably by relative low-temperature sublimation or solution-phase deposition onto a substrate.01-01-2009
20120267620COMPOUND FOR ORGANIC PHOTOELECTRIC DEVICE, ORGANIC PHOTOELECTRIC DEVICE INCLUDING THE SAME, AND DISPLAY DEVICE INCLUDING THE ORGANIC PHOTOELECTRIC DEVICE - A compound for an organic photoelectric device, an organic photoelectric device including the same, and a display device including the organic photoelectric device, the compound being represented by the following Chemical Formula 1:10-25-2012
20110147732BENZOFLUORANTHENE DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE ELEMENT COMPRISING SAME - A benzofluoranthene derivative represented by the following formula (1):06-23-2011
20110037059ELECTRO-OPTIC APPARATUS, ELECTRONIC DEVICE, AND METHOD FOR MANUFACTURING ELECTRO-OPTIC APPARATUS - An electro-optic apparatus has an electro-optic panel, driver semiconductor chips bonded onto the terminal portion of the electro-optic panel, and two protection films either or both of which are transparent, wherein the electro-optic panel is sealed by being sandwiched between the two protection films, and one protection film that covers the terminal portion has openings for exposing the driver semiconductor chips.02-17-2011
20110037058OPTOELECTRONIC DEVICE - The present invention relates to an opto-electronic device comprising a layer comprising a polymer containing fluorine-containing groups, where an adhesive fluorine-fluorine interaction exists at least between some of the fluorine-containing groups of the layer. The invention is furthermore directed to the use of the opto-electronic device and to a process for the production thereof.02-17-2011
20110037057DEUTERATED COMPOUNDS FOR ELECTRONIC APPLICATIONS - This invention relates to deuterated aryl-anthracene compounds that are useful in electronic applications. It also relates to electronic devices in which the active layer includes such a deuterated compound.02-17-2011
20110037056PHOTOACTIVE COMPOSITION AND ELECTRONIC DEVICE MADE WITH THE COMPOSITION - There is provided a photoactive composition including: (a) a first host material having a HOMO energy level shallower than or equal to −5.6 eV and having a Tg greater than 95° C.; (b) a second host material having a LUMO deeper than −2.0 eV; and (c) an electroluminescent dopant material. The weight ratio of first host material to second host material is in the range of 99:1 to 1.5:1.02-17-2011
20110037055Flexible Optoelectronic Device Having Inverted Electrode Structure and Method for Making the same - A flexible optoelectronic device having inverted electrode structure is disclosed. The flexible optoelectronic device having inverted electrode structure includes a flexible plastic substrate having a cathode structure, an n-type oxide semiconductor layer, an organic layer, and an anode. The n-type oxide semiconductor layer is disposed on the cathode structure. The organic layer is disposed on the n-type oxide semiconductor layer. The anode is electrically connected with the organic layer.02-17-2011
20110037054AMOLED WITH CASCADED OLED STRUCTURES - An active matrix organic light emitting display includes a plurality of pixels with each pixel including at least one organic light emitting diode circuit. Each diode circuit producing a predetermined amount of light lm in response to power W applied to the circuit and including n organic light emitting diodes cascaded in series so as to increase voltage dropped across the cascaded diodes by the factor of n, where n is an integer greater than one. Each diode of the n organic light emitting diodes produces approximately 1/n of the predetermined amount of light lm so as to reduce current flowing in the diodes by 1/n. The organic light emitting diode circuit of each pixel includes a thin film transistor current driver with the cascaded diodes connected in the source/drain circuit so the current driver provides the current flowing in the diodes.02-17-2011
20120199823DINUCLEAR PLATINUM-CARBENE COMPLEXES AND THE USE THEREOF IN OLEDS - The present invention relates to dinuclear Pt-carbene complexes comprising carbene ligands and pyrazole bridges, to a process for preparing the dinuclear Pt-carbene complexes by contacting suitable Pt compounds with the corresponding ligands or ligand precursors and/or pyrazole or corresponding pyrazole derivatives, to organic electronic components comprising at least one such dinuclear Pt-carbene complex, to an OLED comprising at least one such dinuclear Pt-carbene complex, to a light-emitting layer comprising at least one such dinuclear Pt-carbene complex, to an OLED comprising such a light-emitting layer, to a device selected from the group consisting of stationary visual display units, mobile visual display units and illumination means, comprising such an OLED, and to the use of an inventive dinuclear Pt-carbene complex in OLEDs.08-09-2012
20090184312BENZOFLUORENE COMPOUND AND USE THEREOF - A novel material having high hole-transporting ability and a high glass transition temperature and having long-lasting durability is obtained.07-23-2009
20090134385Organic Line Detector and Method for the Production Thereof - A method for producing an organic line detector for applications in the field of computer tomography, includes the following steps: selective etching is carried out on an indium-tin-oxide (ITO) applied to a substrate; two separate ITO strips are formed by the etching; at least one structured mushroom photosensitive resist is applied between the ITO strips; at least one organic perforated conductor is applied to the mushroom photosensitive resist and the ITO strips, only adhering to the ITO strips; at least one organic semiconductor is applied to the layer of the organic perforated conductor, only adhering to the organic perforated conductor and not to the mushroom photosensitive resist; and at least two negative cup-type electrodes are applied to the organic semiconductor, the cup-type electrodes being separate from each other.05-28-2009
20080315187ENHANCING PERFORMANCE CHARACTERISTICS OF ORGANIC SEMICONDUCTING FILMS BY IMPROVED SOLUTION PROCESSING - Improved processing methods for enhanced properties of conjugated polymer films are disclosed, as well as the enhanced conjugated polymer films produced thereby. Addition of low molecular weight alkyl-containing molecules to solutions used to form conjugated polymer films leads to improved photoconductivity and improvements in other electronic properties. The enhanced conjugated polymer films can be used in a variety of electronic devices, such as solar cells and photodiodes.12-25-2008
20080315189ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - An organic light emitting diode (OLED) display device and a method of fabricating the same capable of minimizing the number of process operations and a decrease in aperture ratio. The OLED display device includes a compensation circuit to compensate for a threshold voltage of a driving transistor. A pixel circuit of the OLED display device can be stably driven, can minimize a threshold voltage of a driving transistor using a minimized structure, and can increase an aperture ratio of the display device.12-25-2008
20080315188Apparatus and method for depositing thin film - In a thin film depositing apparatus, a first reaction gas, a second reaction gas, and a non-volatile gas are supplied to a reaction chamber in order to form a protective layer, in which an organic layer and an inorganic layer are alternately stacked, on a process substrate. The first reaction gas is supplied to the reaction chamber only while the inorganic layer is formed on the process substrate, and the second reaction gas and the non-volatile gas are supplied to the reaction chamber through while the inorganic and organic layers are formed on the process substrate. Thus, the discontinuous surfaces may be prevented from being formed between the organic layer and the inorganic layer, thereby preventing the peeling of the organic and inorganic layers and increasing light transmittance.12-25-2008
20080315191Organic Thin Film Transistor Array and Method of Manufacturing the Same - An n-type TFT and a p-type TFT are realized by selectively changing only a cover coat without changing a TFT material using an equation for applying the magnitude of a difference in the Fermi energy between an interface of semiconductor and an electrode and between an interface of semiconductor and insulator. At this time, in order to configure a predetermined circuit, the process is performed, as a source electrode and a drain electrode of the p-type TFT and a source electrode and a drain electrode of the n-type TFT being connected all, respectively, and an unnecessary interconnection is cut by irradiating light using a scanning laser exposure apparatus or the like.12-25-2008
20080315185Photodetector - A photodetector comprising: at least one electron transporting organic material; and at least one hole transporting material, wherein said at least one electron transporting organic material has an ionization potential of more than 5.5 eV.12-25-2008
20080224131Compound, a molecular switch employing the compound and a method of electronic switching - Classes of molecules are disclosed which can, for example, be used in molecular switches. The classes of molecules include at least three segments—an electronic donor (“D”), a switchable bridge (“B”), and an electronic acceptor (“A”)—chemically connected and linearly arranged (e.g., D-B-A). The electronic donor can be an aromatic ring system with at least one electron donating group covalently attached; an aromatic ring system with an electron withdrawing group covalently attached is usually employed as the electronic acceptor; and the switchable bridge can be a pi system that can be switched on or off using an external electric field.09-18-2008
20110175076Light-Emitting Element and Light-Emitting Device Employing the Same - An object is to provide a white light-emitting element which emits broad white light which is close to natural light and covers a wide wavelength range; that is, a white light-emitting element which has a broad spectrum waveform. Further, there are various different kinds of white light; however, in particular, an object is to provide a white light-emitting element which emits white light which is close to the standard white color of the NTSC. Over a substrate 07-21-2011
20090050883Method of manufacturing organic electroluminescent device and organic electroluminescent device - An organic electroluminescent device, which, on a substrate, has a plurality of first electrodes, and a second electrode opposing the plurality of first electrodes. The organic electroluminescent device also including a light-emitting functional layer between the second electrode and one of the first electrodes and a buffering layer that covers the second electrode. The buffering layer having a side end portion with an angle equal to or less than 30°. The organic electroluminescent device further including a gas barrier layer that covers the buffering layer.02-26-2009
20080315190Organic Thin Film Transistor and Method for Surface Modification of Gate Insulating Layer of Organic Thin Film Transistor - This invention provides an organic thin film transistor, which can realize the modification of the surface of a gate insulating layer not only the case where the gate insulating layer is formed of an oxide, but also the case where the gate insulating layer is formed of a material other than the oxide and consequently can significantly improve transistor characteristics, and a method for surface modification of a gate insulating layer in the organic thin film transistor. In an organic thin film transistor comprising a gate insulating layer, an organic semiconductor layer stacked on the gate insulating layer, and an electrode provided on the organic semiconductor layer, a polyparaxylylene layer formed of a continuous polyparaxylylene film is formed on the surface of the gate insulating layer, between the gate insulating layer and the organic semiconductor layer, so as to face and contact with the organic semiconductor layer.12-25-2008
20130168642BITHIOPHENE DERIVATIVES AND SEMICONDUCTOR DEVICES COMPRISING THE SAME - In an embodiment of the disclosure, a bithiophene derivative is provided. The bithiophene derivative has formula (I):07-04-2013
20110156010SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes a gate formed over a substrate, organic semiconductor pattern interposed between the substrate and the gate, junction regions formed in the substrate on both sides of the gate, and junction patterns formed over the junction regions to contact the organic semiconductor patterns.06-30-2011
20130168661Electro-Optic Device and Method for Manufacturing Same - According to the present invention, an electro-optic device comprises: a substrate which is split into a light emitting unit and a non-light emitting unit, wherein said light emitting unit is divided into a plurality of driving regions; an electrode pad which is formed in the non-light emitting unit of the substrate; and an electrode unit which comprises a plurality of supplementary electrodes each of which has one end connected to the electrode pad and has the other end connected to the centers of each of the plurality of driving regions, and transparent electrodes formed on the upper sides of the plurality of supplementary electrodes in the light emitting unit, wherein the area of each of the plurality of driving regions is set to an area in which no voltage drop occurs, and the plurality of supplementary electrodes are manufactured in the same length. Thus, according to the present invention, if power is supplied to each one end of the plurality of supplementary electrodes by using the electrode pad, the power is transmitted, at the same time, to the other ends of each of the plurality of supplementary electrodes. Therefore, the power is simultaneously supplied to each center of the plurality of driving regions regardless of the distance between the electrode pad and the driving regions. Further, as mentioned above, a voltage drop phenomenon is prevented since the light emitting unit is divided into the plurality of driving regions in which no voltage drop occurs. That is to say, uniform currents can flow on the front side of each driving region irrespective of the distance between the supplementary electrodes and the driving regions. Consequently, a large-scaled organic light emitting device which can show uniform brightness properties in the overall light emitting unit can be manufactured.07-04-2013
20130168662Method of Forming a Semiconductor Device - Method for producing a semiconductor device such as an organic thin film transistor, and a device produced by the method, the method including the steps of forming conducting electrodes over a substrate, treating a surface of the electrodes with an arene substituted with an electron-withdrawing group to form an electrode contact layer over the electrodes, and forming an organic semiconductor layer over the substrate and electrodes, in which the substrate and electrodes are baked before the organic semiconductor layer is formed so as to reduce contaminants on the electrode contact layer and thereby promote improved crystal nucleation on a surface of the electrode.07-04-2013
20120126207Organic Semiconductor Composition, And Transistor And Electronic Device Including A Polymer Therefrom - An organic composition for a semiconductor device includes a compound for an organic semiconductor device including a structural unit; and a metal-containing compound selected from a transition element-containing compound, a lanthanide-containing compound, and a combination thereof, which results in improved charge mobility due to a reduced grain boundary.05-24-2012
20100308308USE OF SUBSTITUTED TRIS(DIPHENYLAMINO)TRIAZINE COMPOUNDS IN OLEDS - The present invention relates to an organic light-emitting diode comprising at least one tris(diphenylamino)triazine compound with at least one alkoxy or aryloxy radical, to a light-emitting layer comprising at least one tris(diphenylamino)triazine compound with at least one alkoxy or aryloxy radical, to the use of the aforementioned compounds as a matrix material, hole/exciton blocker material, electron/exciton blocker material, hole injection material, electron injection material, hole conductor material and/or electron conductor material, and to a device selected from the group consisting of stationary visual display units, mobile visual display units and illumination units comprising at least one inventive organic light-emitting diode.12-09-2010
20120241728Anthracene Derivative, Light-Emitting Material, Material for Light-Emitting Element, Composition for Coating, Light-Emitting Element, Light-Emitting Device, and Electronic Device - An anthracene derivative represented by the general formula (G1) is provided. The anthracene derivative represented by the general formula (G1) is a novel anthracene derivative having a wide band gap. Further, the anthracene derivative has a large energy gap and can be very suitably used as a material for a light-emitting element which exhibits blue light emission.09-27-2012
20110253994COMPOUND FOR ORGANIC OPTOELECTRONIC DEVICE, ORGANIC LIGHT EMITTING DIODE INCLUDING THE SAME AND DISPLAY DEVICE INCLUDING THE SAME - A compound for an organic optoelectronic device, an organic optoelectronic device including the same, and a display device including the same, the compound for an organic optoelectronic device being represented by the following Chemical Formula 1:10-20-2011
20110253992ORGANIC PHOTOSENSITIVE DEVICES USING SUBPHTHALOCYANINE COMPOUNDS - An organic photosensitive optoelectronic device includes an anode, a cathode, and a donor-acceptor heterojunction between the anode and the cathode, the heterojunction including a donor-like material and an acceptor-like material, wherein at least one of the donor-like material and the acceptor-like material includes a subphthalocyanine, a subporphyrin, and/or a subporphyrazine compound, wherein the subporphyrin or subporphyrazine compound includes boron.10-20-2011
20110253988BRIDGED BENZIMIDAZOLE-CARBENE COMPLEXES AND USE THEREOF IN OLEDS - The present invention concerns a metal-carbene complex of the general formula (I)10-20-2011
20110253986TRIARYLAMINE COMPOUNDS FOR ELECTRONIC APPLICATIONS - This invention relates to triarylamine compounds that are useful in electronic applications. It also relates to electronic devices in which the active layer includes such a compound.10-20-2011
20120199820MONOAMINE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT ELEMENT USING SAME - An organic electroluminescence device includes: an anode; a cathode being opposed to the anode; and an emitting layer being provided between the anode and the cathode. The emitting layer includes a host material and a phosphorescent dopant material. The host material includes a monoamine derivative represented by a formula-(1A) below.08-09-2012
20120032160ORGANIC FIELD EFFECT TRANSISTOR AND SEMICONDUCTOR DEVICE - It is an object to provide an organic field effect transistor including an electrode which can reduce an energy barrier at an interface between a conductive layer and a semiconductor layer, and a semiconductor device including the organic field effect transistor. A composite layer containing an organic compound and an inorganic compound is provided in at least part of one of a source electrode and a drain electrode in an organic field effect transistor, and as the organic compound, a carbazole derivative represented by the general formula (1) is used. By providing the composite layer in at least part of one of the source electrode and the drain electrode, an energy barrier at an interface between a conductive layer and a semiconductor layer can be reduced.02-09-2012
20120032154SEMICONDUCTOR DEVICE, DISPLAY DEVICE AND ELECTRONIC EQUIPMENT - Disclosed herein is a semiconductor device including: a gate electrode; a gate insulating film; an organic semiconductor layer; and source and drain electrodes.02-09-2012
20120032153Organic Light-Emitting Diode Device - The present invention relates to an improved organic light-emitting diode (OLED) device which comprises a first conductive layer, a first light-emitting material layer, a second light-emitting material layer, a second conductive layer, and at least one third light-emitting material layer, wherein the first conductive layer is adapted for being an anode substrate, moreover, by way of evaporation process, the first light-emitting material layer, the third light-emitting material layer, the second light-emitting material layer, and the second conductive layer are formed on the anode substrate in turns. Besides, the phenomenon of efficiency roll-off occurring in a high luminance region of the OLED device may be improved by adding the third light-emitting material layer between the first light-emitting material layer and the second light-emitting material layer.02-09-2012
20080203384Method of Manufacturing an Electrical Element - The element (08-28-2008
20080203383Multi-Layer Composite Body Having an Electronic Function - The invention relates to a multilayer composite body having an electronic function, in particular an electronic subassembly comprising a plurality of organic electronic components. The invention provides, for the first time, a possibility for a structure of an entire subassembly such as an RFID tag, the entire tag with all of the components being able to be implemented in one production process.08-28-2008
20110163304Organic Material and Electrophotographic Device - The invention relates to an electronic device, particularly photoreceptor or electrophotographic device, comprising an organic function material, which comprises an electron transport component and a hole trap component, to an organic material, which is a mixture or a copolymer comprising an electron transport component and a hole trap component, its use as charge transport material in a photoreceptor or electrophotographic device, especially of the positive charging type, and to electronic devices comprising such a material.07-07-2011
20110163302HOLE TRANSPORT MATERIALS HAVING A SULFUR-CONTAINING GROUP - Novel materials are provided, having a single phenyl or a chain of phenyls where there is a nitrogen atom on each end of the single phenyl or chain of phenyls. The nitrogen atom may be further substituted with particular thiophene, benzothiophene, and triphenylene groups. Organic light-emitting devices are also provided, where the novel materials are used as a hole transport material in the device. Combinations of the hole transport material with specific host materials are also provided.07-07-2011
20110163299Electroluminescent Devices Employing Organic Cathodes - The disclosure provides methods, materials, and devices suitable for use in electroluminescent devices. In one embodiment, for example, there is provided a layered cathode comprising a metal substrate and an intermediate organic or organometallic layer having an electron accepting group. The intermediate layer provides an interface with an overlaying electroluminescent layer. The disclosure finds utility, for example, in the field of microelectronic devices.07-07-2011
20120199818TRIAZOLE DERIVATIVE, AND LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, AND ELECTRONIC DEVICE WITH THE USE OF TRIAZOLE DERIVATIVE - It is an object of the present invention to provide a novel triazole derivative. Further, it is another object of the present invention to provide a light-emitting element having high luminous efficiency with the use of the novel triazole derivative. Moreover, it is still another object of the present invention to provide a light-emitting device and electronic devices which have low power consumption. A light-emitting element having high luminous efficiency can be manufactured with the use of a triazole derivative which is a 1,2,4-triazole derivative, in which an aryl group or a heteroaryl group is bonded to each of 3-position, 4-position, and 5-position, and in which any one of the aryl group or heteroaryl group has a 9H-carbazol-9-yl group.08-09-2012
20100187515Use of a Precursor of an N-Dopant for Doping an Organic Semiconductive Material, Precursor and Electronic or Optoelectronic Component - Use of a precursor of an n-dopant for doping an organic semiconductive material, as a blocking layer, as a charge injection layer, as an electrode material, as a storage material or as a semiconductor material itself in electronic or optoelectronic components, the precursor being selected from the following formulae 1-3c:07-29-2010
20110163300ORGANIC LIGHT-EMITTING MATERIAL, ORGANIC LIGHT-EMITTING ELEMENT USING THE SAME AND METHOD OF FORMING THE SAME - The present invention provides compound of formula (I)07-07-2011
20120199816PHOTOELECTRIC CONVERSION DEVICE AND METHOD OF MANUFACTURING THE SAME - A photoelectric conversion device according to the present invention includes, between a pair of electrodes, an electron donor layer having an interdigitated shape in cross section comprising a stripe-like part in cross section and a base, a plurality of strip-like parts in cross section extending in a direction intersecting electrode main surfaces being formed at intervals in the stripe-like part in cross section; and an electron acceptor layer having an interdigitated shape in cross section comprising a stripe-like part in cross section and a base, a plurality of strip-like parts in cross section extending in a direction intersecting the electrode main surfaces being formed at intervals in the stripe-like part in cross section, the photoelectric conversion device further including an active layer in which the plurality of strip-like parts in cross section of the electron donor layer and the plurality of strip-like parts in cross section of the electron acceptor layer are alternately joined. A stripe width a of the stripe-like part in cross section of the electron donor layer and a stripe width b of the stripe-like part in cross section of the electron acceptor layer are both 5 to 100 nm. When a=b, a thickness c of the active layer is twice to 40 times as large as a (=b). When a≠b, the thickness c of the active layer is twice or more of one of a and b which is smaller and 40 times or less of one of a and b which is larger.08-09-2012
20110163301PYROMELLITIC DIIMIDE ORGANIC SEMICONDUCTORS AND DEVICES - n-type organic semiconductors have a pyromellitic diimide structure and electronic or electro-optic devices include pyromellitic diimide compounds as organic semiconductors. Specific semiconductors include pyromellitic diimide compounds have sidechains comprising fluorine substituted aliphatic or aromatic moieties linked to the pyromellitic diimide structure by an alkylene or heteroalkylene linking group. An electronic or electro-optic device includes a first electrode, a second electrode space apart from the first electrode, and an organic semiconductor layer arranged between the first and second electrodes. The organic semiconductor layer comprises a pyromellitic diimide compound.07-07-2011
20100320454White Light Emitting Material - A white light emitting material comprising a polymer having an emitting polymer chain and at least one emitting end capping group.12-23-2010
20100320455ORGANIC ELECTROLUMINESCENCE DEVICE, PRODUCTION PROCESS THEREFOR, AND USE THEREOF - Organic electroluminescence devices of the invention have excellent luminous efficiency and durability. Uses of the devices are also disclosed. The organic electroluminescence device includes a pair of electrodes and one or more organic layers including an emitting layer between the pair of electrodes, wherein one of the organic layer(s) includes a hole transporting compound having 2 to 10 arylamine structures in the molecule, an electron transporting compound having a structure of Formula (a) below and an emitting compound12-23-2010
20100320449Organic Radiation-Emitting Component - An organic radiation-emitting component such as an organic light emitting diode (OLED), having at least two electrode layers and, between them, at least one organic self-emitting layer with a phosphorescence triplet emitter comprising as well as one phosphorescent metal complex. The radiation-emitting layer contains, embedded in a matrix, a metal complex, preferably a transition metal complex, with at least one substituted or unsubstituted guanidinate ligand.12-23-2010
20100320453THIN-FILM TRANSISTOR AND METHOD FOR PRODUCING THE SAME - A thin-film transistor includes a gate electrode disposed on a substrate, a semiconductor layer formed of an organic semiconductor and constituting a channel region, a gate insulating film disposed between the gate electrode and the semiconductor layer, and a pair of source/drain electrodes electrically connected to the semiconductor layer. The semiconductor layer includes a protruding portion protruding toward the substrate from an inner region of a surface, opposite the substrate, of the semiconductor layer excluding a region near ends thereof.12-23-2010
20100320451BENZOCHRYSENE DERIVATIVE AND ORGANIC ELECTROLUMINESCENCE DEVICE USING THE SAME - A fused aromatic ring derivative shown by the following formula (1):12-23-2010
20100320446ORGANIC LIGHT-EMITTING DEVICE HAVING IMPROVED LIGHT-EMITTING EFFICIENCY AND METHOD FOR FABRICATING THE SAME - The present invention provides an organic light emitting device in which a layer having a refractive index in the range of 1.3 to 3 is further formed on an upper electrode of at least one region of regions through which rays having red, green, and blue colors are passed and a method of manufacturing the organic light emitting device. An optical length that can cause the microcavity effect according to the type of color of emitted light is controlled by using the layer to manufacture the organic light emitting device having high light emitting efficiency.12-23-2010
20100320448Electronic Component And A Method Of Manufacturing An Electronic Component - An electronic component, notably one including, for example, a TFT, a storage capacitor, or a crossing between electrically conductive layers of a stack device is disclosed. The electronic component comprises a substrate whereon a first electrically conductive layer forming electrode is provided. A second electrode formed by a second electrically conductive layer is separated from the first electrode by at least a dielectric layer, comprising an interlayer of an electrically insulating material, preferably having high resistance against view (12-23-2010
20120199824ORGANIC SEMICONDUCTOR MATERIAL, ORGANIC SEMICONDUCTOR THIN FILM, AND ORGANIC THIN FILM TRANSISTOR - Provided are an organic semiconductor material, organic semiconductor thin film and organic thin-film transistor, which contain a perylene tetracarboxylic diimide derivative represented by the following formula (1):08-09-2012
20110042659THIN FILM DEPOSITION APPARATUS, METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY DEVICE BY USING THE APPARATUS, AND ORGANIC LIGHT-EMITTING DISPLAY DEVICE MANUFACTURED BY USING THE METHOD - A thin film deposition apparatus that includes a thin film deposition assembly incorporating: a deposition source that discharges a deposition material; a deposition source nozzle unit that is disposed at a side of the deposition source and includes a plurality of deposition source nozzles arranged in a first direction; a patterning slit sheet that is disposed opposite to the deposition source nozzle unit and includes a plurality of patterning slits arranged in the first direction; and a barrier plate assembly including a plurality of barrier plates that are disposed between the deposition source nozzle unit and the patterning slit sheet in the first direction, and partition a space between the deposition source nozzle unit and the patterning slit sheet into a plurality of sub-deposition spaces, wherein each of the barrier plates is separate from the patterning slit sheet.02-24-2011
20110073854POLYMER COMPOUND AND ORGANIC TRANSISTOR USING THE SAME - A polymer compound comprising a repeating unit represented by the formula (I):03-31-2011
20100283038POLYMER MATERIAL AND DEVICE USING THE SAME - A polymer material comprising a composition containing a fluorescent conjugated polymer (A) and a phosphorescent compound (B) or comprising a polymer having the structure of (A) and the structure of (B) in the same molecule, wherein the following conditions (1), (2) and (3) are satisfied: 11-11-2010
20100283039ORGANIC PHOTOSENSITIVE OPTOELECTRONIC DEVICE - An organic photosensitive optoelectronic device includes an anode, an organic photosensitive layer formed on the anode and having a donor portion and an acceptor portion, a hole blocking layer formed on the organic photosensitive layer so as for the organic photosensitive layer to be sandwiched between the anode and the hole blocking layer, and a cathode formed on the hole blocking layer so as for the hole blocking layer to be sandwiched between the cathode and the organic photosensitive layer. The highest occupied molecular orbitals (HOMO) of the hole blocking layer is at least 0.3 eV higher than that of the donor portion. Therefore, the optoelectronic device efficiently suppresses dark current so as to enhance sensitivity when applied to a detector.11-11-2010
20100283040SELENOPHENES AND SELENOPHENE-BASED POLYMERS, THEIR PREPARATION AND USES THEREOF - This invention is directed to selenophene compounds, selenophene-based polymers (polyselenophene), processes for the preparation of the same and uses thereof. The polyselenophenes of this invention have high conductivity and can be used as electrodes in various devices such as in electrochromic devices, batteries, solar cells, optical amplifiers, organic light emitting diodes, and the like.11-11-2010
20100283045ORGANIC ELECTROLUMINESCENT ELEMENT - The present invention provides an organic electroluminescent element having extended life. The present invention is an organic electroluminescent element having a pair of electrodes, and an organic light-emitting layer that contains a polymer light-emitting material and is sandwiched by the pair of electrodes, the organic electroluminescent element comprising: a first nanoparticle layer containing electron-transport metal oxide nanoparticles and hole-transport metal oxide nanoparticles, between the organic light-emitting layer and one of the pair of electrodes; and a second nanoparticle layer containing electron-transport metal oxide nanoparticles and hole-transport metal oxide nanoparticles, between the organic light-emitting layer and the other of the pair of electrodes.11-11-2010
20100283044ORGANIC TRANSISTOR, METHOD FOR PRODUCING ORGANIC TRANSISTOR, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC EQUIPMENT - An organic transistor includes: a source electrode, a drain electrode, an organic semiconductor film provided between the source electrode and the drain electrode, a gate electrode, and a gate dielectric film provided between the organic semiconductor film and the gate electrode, the gate dielectric film including a first gate dielectric film in contact with the gate electrode and a second gate dielectric film in contact with the organic semiconductor film, the second gate dielectric film having a hydrocarbon compound containing carbon and hydrogen atoms.11-11-2010
20100283042DEVICES HAVING HIGH DIELECTRIC CONSTANT, IONICALLY-POLARIZABLE MATERIALS - An electronic or electro-optic device has a first electrode, a second electrode spaced apart from the first electrode, and a dielectric layer disposed between the first and second electrodes. The dielectric layer has electrically insulating planar layers with intercalated ions therebetween such that the electrically insulating planar layers provide a barrier to impede movement of the intercalated ions to the first and second electrodes under an applied voltage while permitting a polarization of the dielectric layer while in operation.11-11-2010
20100283046ORGANIC ELECTROLUMINESCENT ELEMENT - The present invention provides an organic electroluminescent element having excellent electron injection properties and high resistance to external environmental factors, and providing buffer effects in transparent electrode formation. The present invention is an organic electroluminescent element having an anode, a cathode, and a light-emitting layer sandwiched between the anode and the cathode, the organic electroluminescent element comprising a nanoparticle layer containing metal oxide nanoparticles, between the light-emitting layer and the cathode.11-11-2010
20110108816ELECTRONIC HYBRID DEVICE - Method of manufacture of an electronic device, comprising providing a substrate comprising a semiconductor device stack, depositing a first material layer over the substrate, the first material layer being an insulating layer, depositing an active organic material layer over the first material layer, depositing a second material layer over the active organic material layer, the second material layer being an insulating layer.05-12-2011
20110042663DIBENZO[c,g]FLUORENE COMPOUND AND AN ORGANIC LIGHT-EMITTING DEVICE USING THE SAME - An organic light-emitting device which has high emission efficiency and high durability even at low drive voltage is provided. An organic light-emitting device including an anode, a cathode, and an organic compound layer which is interposed between the anode and the cathode, wherein the organic compound layer include at least one dibenzo[c,g]fluorene compound represented by the following General Formula (1).02-24-2011
20110133173CHARGE TRANSPORT COMPOSITIONS AND ELECTRONIC DEVICES MADE WITH SUCH COMPOSITIONS - The present invention relates to charge transport compositions. The invention further relates to electronic devices in which there is at least one active layer comprising such charge transport compositions.06-09-2011
20110133170ORGANIC LIGHT EMITTING DISPLAY DEVICE AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING DISPLAY DEVICE - There is provided an organic light emitting display device including a first substrate; an organic light emitting unit formed on the first substrate; a second substrate disposed on the organic light emitting unit; and an adhesive unit for adhering the first substrate and the second substrate to each other, wherein the adhesive unit includes a sealant, and particles that are arranged in the sealant so as to block penetration of external impurities. There is further provided a method of manufacturing the organic light emitting display device.06-09-2011
20100244007ORGANIC ELECTROLUMINESCENT ELEMENT - The present invention provides a white organic electroluminescent element which can emits white light and is free from deviation of chromaticity. This organic electroluminescent element comprises a substrate and, provided on the substrate, at least an anode, a cathode, and a light emitting layer held between the anode and the cathode. This organic electroluminescent element is characterized in that the light emitting layer contains at least three types of light emitting materials different from each other in X max, and the absolute value of HOMO level of the light emitting material having the shortest wavelength is smaller than the absolute value of HOMO level of the other light emitting materials.09-30-2010
20100187513ORGANIC ELECTROLUMINESCENCE ELEMENT - An organic electroluminescence element includes an anode and a transparent electrode cathode. An organic luminescent layer is located between the anode and the cathode. An electron injection layer is located between the cathode and the organic luminescent layer, and includes at least one of an alkali metal and an alkali earth metal to inject electrons into the organic luminescent layer. A cathode buffer layer is located between the electron injection layer and the cathode, and includes a hole-transporting organic material.07-29-2010
20110253990ORGANIC ELECTROLUMINESCENCE DEVICE AND PRODUCTION METHOD THEREOF - Disclosed is an organic electroluminescence device which can be stably produced by a wet process and exhibits enhanced external quantum efficiency and reduced coating unevenness and a production method thereof. Specifically, disclosed is a method of producing the organic electroluminescence device comprising at least a layer, which is formed by a wet process comprising of coating a solution of an organic material dissolved in a solvent to form a liquid layer, followed by removal of the solvent by blowing air to form the layer, wherein the relative drying rate of the solvent to butyl acetate is from 1 to 1000, (based on the drying rate of butyl acetate being 100), the thickness of the formed liquid layer is from 1 to 100 μm, a air-blowing rate is from 0.1 to 5 m/s and the time between completion of coating and start of blowing is from 0 to 60 sec.10-20-2011
20110253991ORGANIC ELECTROLUMINESCENCE DEVICE - [Problem to be Solved] To provide an organic electroluminescence device with heat resistance capable of being driven by a low voltage.10-20-2011
20100181563THIN FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME, AND FLAT PANEL DISPLAY DEVICE HAVING THE SAME - A thin film transistor using an oxide semiconductor as an active layer, and its method of manufacture. The thin film transistor includes: a substrate; an active layer formed of an oxide semiconductor; a gate insulating layer formed of a dielectric on the active layer, the dielectric having an etching selectivity of 20 to 100:1 with respect to the oxide semiconductor; a gate electrode formed on the gate insulating layer; an insulating layer formed on the substrate including the gate electrode and having contact holes to expose the active layer; and source and drain electrodes connected to the active layer through the contact holes. Since the source and drain electrodes are not overlapped with the gate electrode, parasitic capacitance between the source and drain electrodes and the gate electrode is minimized. Since the gate insulating layer is formed of dielectric having a high etching selectivity with respect to oxide semiconductor, the active layer is not deteriorated.07-22-2010
20100181562Light-Emitting Element, Light-Emitting Device, and Electronic Device - A light-emitting element includes a first electrode, a first light-emitting layer formed over the first electrode, a second light-emitting layer formed on and in contact with the first light-emitting layer to be in contact therewith, and a second electrode formed over the second light-emitting layer. The first light-emitting layer includes a first light-emitting substance and a hole-transporting organic compound, and the second light-emitting layer includes a second light-emitting substance and an electron-transporting organic compound. Substances are selected such that a difference in LUMO levels between the first light-emitting substance, the second light-emitting substance, and the electron-transporting organic compound is 0.2 eV or less, a difference in HOMO levels between the hole-transporting organic compound, the first light-emitting substance, and the second light-emitting substance is 0.2 eV or less, and a difference in LUMO levels between the hole-transporting organic compound and the first light-emitting substance is greater than 0.3 eV.07-22-2010
20100181555MATERIAL FOR ORGANIC ELECTROLUMINESCENT DEVICE, ORGANIC ELECTROLUMINESCENT DEVICE, AND ORGANIC ELECTROLUMINESCENT DISPLAY - A material for an organic electroluminescent device including an imine derivative represented by the following formula (Ia) or (Ib),07-22-2010
20100181553ORGANIC ELECTROLUMINESCENT DEVICE MATERIAL AND ORGANIC ELECTROLUMINESCENT DEVICE - Disclosed is an organic electroluminescent device (organic EL device) that utilizes phosphorescence and is improved in luminous efficiency and fully secured of driving stability. The organic EL device comprises an anode, an organic layer containing a hole-transporting layer, a light-emitting layer, and an electron-transporting layer, and a cathode piled one upon another on a substrate while the hole-transporting layer is disposed between the light-emitting layer and the anode and the electron-transporting layer is disposed between the light-emitting layer and the cathode. The light-emitting layer comprises an aluminum heterocomplex or dimeric complex of deuterated substituted or unsubstituted 2-methyl-8-hydroxyquinoline (Me8HQ-D) in which the hydrogen atoms in the methyl group of substituted or unsubstituted 2-methyl-8-hydroxyquinoline (Me8HQ) are deuterated as a host material and an organic metal complex containing at least one metal selected from groups 7 to 11 of the periodic table as a guest material.07-22-2010
20100181560ORGANIC ELECTROLUMINESCENT ELEMENT, DISPLAY, AND ELECTRONIC APPARATUS - An organic electroluminescent element includes an electron-transport layer composed of a heterocyclic compound, a negative electrode composed of a metal material, and a transition-metal-complex layer arranged between the electron-transport layer and the negative electrode.07-22-2010
20120199821ORGANIC DUAL-GATE MEMORY AND METHOD FOR PRODUCING SAME - The organic memory device is a double-gate transistor that successively comprises a first gate electrode, a first gate dielectric, an organic semi-conductor material, a second gate dielectric and a second gate electrode. Source and drain electrodes are arranged in the organic semiconductor material and define an inter-electrode surface. A trapping area is arranged between the organic semiconductor material and one of the gate electrodes and is in electric contact with one of the gate electrodes or the organic semi-conductor material. The trapping area is at least facing the inter-electrode surface.08-09-2012
20110089410Electronic Device Comprising Metal Complexes - The present invention relates to organic electroluminescent devices comprising metal complexes according to the formula (1) and metal complexes for use in organic electroluminescent devices.04-21-2011
20110089407ELECTROLUMINISCENT METAL COMPLEXES WITH DIBENZO[F,H] QUINOXALINES - This invention relates to electroluminescent metal complexes of the formula (I), or (II), a process for their preparation, electronic devices comprising the metal complexes and their use in electronic devices, especially organic light emitting diodes (OLEDs), as oxygen sensitive indicators, as phosphorescent indicators in bioassays, and as catalysts.04-21-2011
20100127250METHOD FOR REALIZING A THIN FILM ORGANIC ELECTRONIC DEVICE AND CORRESPONDING DEVICE - A method realizes a thin film organic electronic device integrated on a substrate and includes an organic material layer and an organic thin film transistor or OTFT transistor. The method comprises: depositing the organic material layer on the substrate, the organic material layer being a conductive organic polymer; patterning by a soft-lithographic procedure the organic material layer to create a reduced portion in order to make a channel area of the OTFT transistor; masking the organic material layer by covering with a cover mask a source area and a drain area of the OTFT transistor; irradiating by ultraviolet radiation to deactivate exposed portions of the organic material layer defining the source area, the drain area and the channel area; depositing on the organic material layer a semiconductor layer; and creating on the semiconductor layer a gate area of the OTFT transistor.05-27-2010
20110253984ELECTRONIC GRADE SILK SOLUTION, OTFT AND MIM CAPACITOR WITH SILK PROTEIN AS INSULATING MATERIAL AND METHODS FOR MANUFACTURING THE SAME - An electronic grade silk solution, an organic thin film transistor (OTFT) and a metal-insulator-metal capacitor with silk protein as the insulating material manufactured by use of the silk solution, and methods for manufacturing the same are disclosed. The OTFT of the present invention comprises: a substrate; a gate disposed on the substrate; a gate insulating layer containing silk protein, which is disposed on the substrate and covers the gate; an organic semiconductor layer; and a source and a drain, wherein the organic semiconductor layer, the source and the drain are disposed over the gate insulating layer.10-20-2011
20120146008CHRYSENE COMPOUNDS FOR LUMINESCENT APPLICATIONS - This disclosure relates to chrysene compounds that are useful in electroluminescent applications. It also relates to electronic devices in which the active layer includes such a chrysene compound.06-14-2012
20110260143ORGANIC LIGHT-EMITTING DIODE LUMINAIRES - There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and an electroluminescent layer therebetween. The electroluminescent layer includes: 10-27-2011
20100117067ORGANIC LIGHT EMITTING DIODE DISPLAY - An OLED display is disclosed. The display includes a rear substrate, a front substrate facing the rear substrate, a cell seal provided between the rear and front substrates to adhere the two substrates to each other, and a reinforcement member provided between the rear and front substrates adjacent to the cell seal to adhere the two substrates to each other.05-13-2010
20100117065OPTICAL SENSOR AND METHOD FOR MAKING THE SAME - An optical sensor that can be produced at a low cost from inexpensive silicon fine particles as raw materials and a method for making the optical sensor are provided.05-13-2010
20100117064ORGANIC METAL COMPLEXES DERIVATIVE AND ORGANIC LIGHT EMITTING DEVICES USING THE SAME - The present invention relates to a novel organic metal complex derivative and to an organic light emitting device comprising the same.05-13-2010
20110260146ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including: a first electrode; a second electrode; and an organic layer that includes a carrier transport layer and an emission layer and is interposed between the first and second electrodes, wherein the emission layer and the carrier transport layer include the same material.10-27-2011
20100117063Organic electronic device - Disclosed is an electronic device including an n-type organic compound layer as a portion of an electrode for hole injection or hole extraction. The electronic device includes a first electrode including a conductive layer and an n-type organic compound layer disposed on the conductive layer; a second electrode; and a p-type organic compound layer that is interposed between the n-type organic compound layer of the first electrode and the second electrode and forms an NP junction together with the n-type organic compound layer of the first electrode and energy levels of the layers satisfy the following Expressions (1) and (2): 05-13-2010
20110260148TRANSMISSIVE ORGANIC LIGHT EMITTING DIODE AND TRANSMISSIVE LIGHTING DEVICE USING THE SAME - A transmissive organic light emitting diode (OLED) with improved external light efficiency and a transmissive lighting device including the same are provided. The OLED includes a transparent anode formed on a substrate, an organic emission layer formed on the transparent anode, a cathode formed on the organic emission layer, and a light extraction enhancing layer formed on the transparent cathode, and configured to change a path of light generated from the organic emission layer to enhance light extraction efficiency of the OLED. The external light extraction efficiency is enhanced in both-sided or single-sided emission of the OLED and the external light extraction efficiencies of bottom and top surfaces of the OLED are selectively or simultaneously enhanced. An external light extraction ratio between the bottom and top surfaces in both-sided emission is controlled.10-27-2011
20110260152ORGANIC ELECTROLUMINESCENT ELEMENT, DISPLAY DEVICE, AND ILLUMINATION DEVICE - Provided is an organic electroluminescence element comprising an anode, a cathode and at least one light emitting layer sandwiched between the anode and the cathode as a constituting layer, wherein the light emitting layer contains a dopant and a host; crystal grains made of the dopant, the host, or the mixture of the dopant and the host are contained in the light emitting layer; and the crystal grains exhibit an X-ray diffraction peak.10-27-2011
20110260151NOVEL FUSED POLYCYCLIC COMPOUND AND ORGANIC LIGHT-EMITTING ELEMENT - A fused polycyclic compound is represented by general formula [1]:10-27-2011
20110260150DIBENZO[C,G]FLUORENE COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE USING SAME - An organic light-emitting device is provided which efficiently emits light with high brightness and has durability. The organic light-emitting device includes a dibenzo[c,g]fluorene compound having two dibenzo[c,g]fluorene skeletons, and has an organic compound layer containing the dibenzo[c,g]fluorene compound.10-27-2011
20110253987POLYSILICON LAYER, METHOD OF PREPARING THE POLYSILICON LAYER, THIN FILM TRANSISTOR USING THE POLYSILICON LAYER, AND ORGANIC LIGHT EMITTING DISPLAY DEVICE INCLUDING THE THIN FILM TRANSISTOR - A method of crystallizing a silicon layer. An amorphous silicon layer is formed on a buffer layer on a substrate. A catalyst metal layer is formed on the amorphous silicon layer to have a density of from about 1010-20-2011
20110260156LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, LIGHTING DEVICE, AND ELECTRONIC DEVICE - An object is to provide a light-emitting element which exhibits light emission with high luminance and can be driven at low voltage. Another object is to provide a light-emitting device or an electronic device with reduced power consumption. Between an anode and a cathode, n (n is a natural number of two or more) EL layers are provided, where between a first EL layer and a second EL layer, a first layer containing any of an alkali metal, an alkaline earth metal, a rare earth metal, an alkali metal compound, an alkaline earth metal compound, and a rare earth metal compound, a second layer containing a material having a high electron-transporting property in contact with the first layer, and a region containing a material having a high hole-transporting property and an acceptor material in contact with the second layer are provided in this order from the anode side.10-27-2011
20120146002Organic Semiconductor Interface Preparation - A method is provided for preparing an interface surface for the deposition of an organic semiconductor material, in the fabrication of an organic thin film transistor (OTFT). A substrate is provided and a gate electrode is formed overlying the substrate. A gate dielectric is formed overlying the gate electrode. Then, source (S) and drain (D) electrodes are formed overlying the gate dielectric, exposing a gate dielectric channel interface region between the S/D electrodes. Subsequent to exposing the OTFT to a H06-14-2012
20120146003THIN FILM TRANSISTOR HAVING SCHOTTKY BARRIER - A thin film transistor having Schottky barrier includes a substrate, a first gate conductive layer formed on the substrate, a first semiconductor layer having a first conductive type formed on the first gate conductive layer, a source conductive layer and a drain conductive layer electrically isolated from each other and positioned on the first semiconductor layer, a second semiconductor layer having a second conductive type formed on the source conductive layer and the drain conductive layer, and a second gate conductive layer formed on the second semiconductor layer. The first conductive type is complementary to the second conductive type.06-14-2012
20120146015CHARGE TRANSPORT MATERIALS FOR LUMINESCENT APPLICATIONS - There is provided a charge transport compound having Formula I:06-14-2012
20110068330LIGHT EMITTING DEVICE - According to one embodiment, a light emitting device includes a first reflective layer, a first light emitting element, a second reflective layer and a second light emitting element stacked in this order. The first reflective layer is configured to reflect light in a first wavelength band. The first light emitting element is configured to emit the light in the first wavelength band. The second reflective layer has transmittance for the light in the first wavelength band being higher than transmittance for light in a second wavelength band different from the first wavelength band. The second light emitting element is configured to emit the light in the second wavelength band.03-24-2011
20100244012Naphthyl-substituted anthracene derivatives and their use in organic light-emitting diodes - The present invention relates to anthracene derivative compounds represented by Formula I:09-30-2010
20110095281MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention relates to transition-metal complexes of the general formula I or II, in particular as emitter molecules in organic electronic devices, to a layer and an electronic device which comprise the compounds according to the invention, and to a process for the preparation of the compounds according to the invention.04-28-2011
20110095280NOVEL POLYMERS HAVING LOW POLYDISPERSITY - The present invention relates to novel polymers which comprise one or more recurring units selected from spirobifluorene, indenofluorene, phenanthrene, dihydrophenanthrene, dihydropyrene, tetrahydropyrene and dihydrobenzoxepine derivatives and have low polydispersity and a high molecular weight, to a process for the preparation thereof, to blends and formulations comprising these polymers, and to the use of these polymers in electronic devices, in particular in organic light-emitting diodes, so-called OLEDs (OLED=organic light-emitting diode).04-28-2011
20110095275ORGANIC ELECTRONIC DEVICES, COMPOSITIONS, AND METHODS - Organic electronic devices, compositions, and methods are disclosed that employ electrically conductive nanowires and conducting materials such as conjugated polymers such as sulfonated regioregular polythiophenes which provide high device performance such as good solar cell efficiency. Devices requiring transparent conductors that are resilient to physical stresses can be fabricated, with reduced corrosion problems.04-28-2011
20110095283FLUORINE-BRIDGED ASSOCIATIONS FOR OPTOELECTRONIC APPLICATIONS - The present invention relates to a fluorine-bridged associate consisting of an oligomer or polymer containing fluorine radicals which are bonded to the oligomer or polymer backbone, and up to three types of functional units in the backbone which differ with respect to function and are selected from the group consisting of a hole-transport and/or hole-injection unit, an electron-transport and/or electron-injection unit and an emitter unit, and one to three types of compounds containing a fluorine radical which differ with respect to function and are selected from a hole-transport and/or hole-injection unit, an electron-transport and/or electron-injection unit and an emitter unit, and to an opto-electronic device in which the fluorine-bridged associate is employed.04-28-2011
20110095279ORGANIC ELECTROLUMINESCENCE DISPLAY APPARATUS - Provided is an organic electroluminescence display apparatus capable of reducing a chromaticity difference caused by light emission from an organic layer including an emission layer having the same color, which is continuously formed over two sub-pixels included in a pixel. The organic electroluminescence display apparatus includes: a substrate; and multiple organic electroluminescence devices which are stacked on the substrate, each of which includes electrodes and an organic layer sandwiched by the electrodes in which first organic layer and a second organic layer are arranged side by side in an emission region corresponding to a pixel formed on the substrate and a third organic layer is stacked over the first organic layer and the second organic layer through an intermediate electrode. The third organic layer has an emission spectrum peak wavelength which is longer than an emission spectrum peak wavelength of at least one of the first organic layer and the second organic layer.04-28-2011
20110095278ORGANIC ELECTROLUMINESCENCE ELEMENT, DISPLAY DEVICE AND LIGHTING DEVICE - In an organic electroluminescence element which incorporates a substrate having thereon an anode and a cathode and which incorporates a plurality of organic layers between the aforesaid anode and cathode, wherein at least one of the aforesaid organic layers is a first organic layer incorporating a compound having at most 10 repeating units, the first organic layer being prepared by coating the compound having at least one polymerizable group, followed by polymerization.04-28-2011
20110095276DISPLAY UNIT - A display unit that secures favorable display performance and has a simple structure is provided. The display unit includes a multilayer structure in which an organic light emitting device group respectively having a plurality of organic light emitting devices that emits cyan light and a plurality of organic light emitting devices that emits magenta light and a color filter group having a plurality of blue filters that transmit blue light and a plurality of yellow filters that transmit yellow light are sequentially layered. In the display unit, the cyan light and the magenta light entering from the organic light emitting device group to the color filter group is converted to blue light by the blue filter, and is respectively converted to green light and red light by the yellow filter. Therefore, compared to a case that the organic light emitting device group emits white light, color separation is more facilitated.04-28-2011
20110095277ORGANIC ELECTRONIC DEVICES AND METHODS FOR MANUFACTURING THE SAME - The present invention discloses a method for manufacturing an Organic-Electronic (OE) Device. The method comprises providing at least one lower electrode onto a substrate; providing at least one lower organic layer onto the lower electrode; providing at least one upper electrode onto the lower organic layer to obtain an OE stack; providing a glue, providing a cover, and dicing the OE stack into a plurality of OE dies, and providing a plurality of side-contact electrodes on at least one sidewall of the OE dies. A plurality of voltages is respectively applicable to the plurality of side-contacted electrodes such that the plurality of side-contacted electrodes become electrically connected over the at least one organic layer.04-28-2011
20110095274ORGANIC LIGHT-EMITTING DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display device, which may be configured to prevent moisture or oxygen from penetrating the organic light-emitting display device from the outside is disclosed. An organic light-emitting display device, which is easily applied to a large display device and/or may be easily mass produced is further disclosed. Additionally disclosed is a method of manufacturing an organic light-emitting display device. An organic light-emitting display device may include, for example, a thin-film transistor (TFT) including a gate electrode, an active layer insulated from the gate electrode, source and drain electrodes insulated from the gate electrode and contacting the active layer and an insulating layer disposed between the source and drain electrodes and the active layer; and an organic light-emitting diode electrically connected to the TFT. The insulating layer may include, for example, a first insulating layer contacting the active layer; and a second insulating layer formed of a metal oxide and disposed on the first insulating layer.04-28-2011
20110095272Organic Memory Array With Ferroelectric Field-Effect Transistor Pixels - An organic non-volatile memory array including multiple pixels and associated signal lines that are disposed on and between a substrate, a single ferroelectric dielectric layer, and a single organic dielectric layer, where each pixel includes a ferroelectric field-effect transistor (FeFET) and at least one organic thin-film field effect transistor (FET) that are connected to associated signal lines in a way that facilitates addressable reading and writing to the FeFET of a selected pixel without disturbing the data stored in adjacent pixels. Analog data storage in the FeFET array is also introduced that does not require analog-to-digital conversion of the stored data.04-28-2011
20110095270ELECTROACTIVE MATERIALS - There is provided an electroactive material having Formula I04-28-2011
20110095269ELECTROACTIVE MATERIALS - A compound having Formula I, Formula II, or Formula III:04-28-2011
20110095271HYBRID ORGANIC LIGHT EMITTING DEVICE - A hybrid organic light-emitting device comprises an anode, a cathode, respective adjacent hole and electron transport layers and an emissive layer therebetween. The electron transport layer comprises a metal oxide as a result of which the cathode may be formed of a transparent conductive oxide and the anode of a high work function metal. The metal oxide used for the electron injection layer may be ZrO04-28-2011
20110175065PHOTOVOLTAIC DEVICE HAVING TRANSPARENT ELECTRODE FORMED WITH NANOPARTICLES - A photovoltaic device is disclosed that includes a transparent front electrode formed by the self-assembly of conductive nanoparticles from an emulsion coated onto a substrate and dried. The nanoparticles self-assemble into a network-like pattern of conductive traces that define randomly-shaped transparent cells. The cells may be filled with various transparent filler materials and additional layers may be present in the device in addition to conventional components. Processes for forming the transparent electrode are also disclosed.07-21-2011
20110101323ORGANIC THIN FILM TRANSISTORS - A method of forming an organic thin film transistor comprising source and drain electrodes with a channel region therebetween, a gate electrode, a dielectric layer disposed between the source and drain electrodes and the gate electrode, and an organic semiconductor disposed in at least the channel region between the source and drain electrodes, said method comprising: seeding a surface in the channel region with crystallization sites prior to deposition of the organic semiconductor; and depositing the organic semiconductor onto the seeded surface whereby the organic semiconductor crystallizes at the crystallization sites forming crystalline domains in the channel region.05-05-2011
20130009142CHARGE TRANSPORT COMPOSITIONS AND ELECTRONIC DEVICES MADE WITH SUCH COMPOSITIONS - The present invention relates to charge transport compositions. The invention further relates to electronic devices in which there is at least one active layer comprising such charge transport compositions.01-10-2013
20130009135ELECTRONIC DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - There is provided an electronic device including at least a first electrode, a second electrode disposed to be spaced apart from the first electrode, and an active layer disposed over the second electrode from above the first electrode and formed of an organic semiconductor material. A charge injection layer is formed between the first electrode and the active layer and between the second electrode and the active layer, and the charge injection layer is formed of an organic material having an increased electric conductivity when the charge injection layer is oxidized.01-10-2013
20130009140Light-Emitting Element, Lighting Device, Light-Emitting Device, and Electronic Device - A light-emitting element whose degree of deterioration with driving time is improved and of which emission colors are easily controlled. A light-emitting emitting element having a first electrode, a second electrode, and a layer containing an organic compound located between the first electrode and the second electrode, in which the layer containing the organic compound at least has, from the second electrode side, a light-emitting layer in which a first layer, a second layer, and a third layer are stacked, and a hole-transporting layer provided in contact with the third layer; the first layer contains a first organic compound and a second organic compound; the second layer contains a third organic compound and a fourth organic compound; and the third layer contains the first organic compound and a fifth organic compound.01-10-2013
20130009141Light-Emitting Element, Light-Emitting Device, and Electronic Device - A light-emitting element with improved emission efficiency is provided. The light-emitting element includes a light-emitting layer in which a first light-emitting layer and a second light-emitting layer are stacked in contact with each other over an anode, and a first substance serving as an emission center substance in the second light-emitting layer constitutes the first light-emitting layer. A second substance serving as a host material to disperse the first substance serving as an emission center substance is included in the second light-emitting layer. In the light-emitting element, the second substance is a substance having an energy gap (or triplet energy) larger than the first substance.01-10-2013
20130009139Light-Emitting Element, Light-Emitting Device, Display Device, Lighting Device, and Electonic Device - A light-emitting element is disclosed where a host material and a hole-transport material each consist of a carbazole skeleton and another skeleton other than the carbazole skeleton. Both the highest occupied molecular orbital (HOMO) and the lowest unoccupied molecular orbital (LUMO) of the hole-transport material are distributed over the carbazole skeleton, while the HOMO of the host material is distributed over the carbazole skeleton and the LUMO thereof is distributed over the skeleton other than the carbazole skeleton. This combination of the hole-transport material and the host material allows the fabrication of a light-emitting element with high emission efficiency and low driving voltage.01-10-2013
20130009138COMPOSITE MATERIAL, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, LIGHTING DEVICE, AND ORGANIC COMPOUND - A composite material including an organic compound and an inorganic compound, which has a high carrier-transport property; a composite material having an excellent property of carrier injection to an organic compound; a composite material in which light absorption due to charge transfer interaction is unlikely to occur; and a composite material having a high visible-light-transmitting property are provided. A composite material which includes an organic compound and an inorganic compound exhibiting an electron-accepting property with respect to the organic compound, in which the rings of the organic compound are all benzene rings and the number of the benzene rings of the organic compound is greater than or equal to 4 and less than or equal to 25, is provided.01-10-2013
20130009137VERTICALLY PHASE-SEPARATING SEMICONDUCTING ORGANIC MATERIAL LAYERS - Improved OLED devices and methods of making the same using vertical phase separation to simplify processing. Vertically phase separated material can include at least one lower first layer disposed on the electrode, and at least one upper second layer different from the first layer and disposed away from the electrode or optionally on one layer comprising at least one semiconducting organic material. The first layer can be enriched with at least one first semiconducting organic material (SOM 1) and the second layer can be enriched with at least one second semiconducting organic material (SOM 2) different from the SOM 1. The ink composition can be adapted so that the film vertically phase separates into the first and second layers. Compositions and devices are also embodied herein.01-10-2013
20130009136TRIPHENYLENE-BASED COMPOUNDS AND ORGANIC ELECTROLUMINESCENT DEVICE COMPRISING SAME - The present invention relates to a triphenylene-based compound represented by the following Formula 1 and an organic electroluminescent device including the same, and the compound of the present invention has excellent hole injection and/or transporting ability, electron transporting ability, and/or light emitting ability, and particularly, green and red light emitting ability, and thus in an organic electroluminescent device containing the same as a light emitting host material, characteristics such as luminous efficiency, luminance, thermal stability, driving voltage, service life and the like may be improved.01-10-2013
20130009134ORGANIC EL DEVICE AND METHOD FOR MANUFACTURING THE SAME - Provided is an organic EL device comprising