Patent application number | Description | Published |
20080203386 | Method of forming a patterned resist layer for patterning a semiconductor product - A first embodiment discloses a method of forming a patterned resist layer for patterning a substrate. A resist layer is formed on or above a substrate. An inorganic layer is formed on the resist layer. The resist layer covered with the inorganic layer is lithographically exposed. The resist layer covered with the inorganic layer is patterned by etching, thereby forming a patterned resist layer. | 08-28-2008 |
20080275273 | Method for Synthesizing Long-Chain Phosphonic Acid Derivatives and Thiol Derivatives - A process for synthesizing long-chain phosphonic acid derivatives and thiol derivative is disclosed. One embodiment provides organic compounds which can form a self-assembled monolayer and are obtained by reaction of an olefin with a thiocarboxylic acid and subsequent hydrogenation to give the thiol, or with a phosphite and subsequent hydrolysis to give the phosphonic acid. | 11-06-2008 |
20080290337 | Ultrathin 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 |
20080315192 | Integrated Circuit Comprising an Organic Semiconductor, and Method for the Production of an Integrated Circuit - An embodiment of the invention provides an integrated circuit having an organic field effect transistor (OFET) with a dielectric layer. The dielectric layer is prepared from a polymer formulation comprising: about 100 parts of at least one crosslinkable base polymer, from about 10 to about 20 parts of at least one di- or tribenzyl alcohol compound as an electrophilic crosslinking component, from about 0.2 to about 10 parts of at least one photo acid generator, and at least one solvent. Another embodiment provides a semiconductor fabrication method. The method comprises applying the polymer formulation to a surface of a substrate, drying the polymer formulation, crosslinking the polymer formulation after drying, and baking the polymer formulation after crosslinking. | 12-25-2008 |
20090066345 | SENSOR HAVING ORGANIC FIELD EFFECT TRANSISTORS - A force sensor based on an organic field effect transistor applied on a substrate is disclosed. In one embodiment, a mechanical force acting on the transistor causes a change in its source-drain voltage or its source-drain current which corresponds to said force and which can in each case be detected as measurement quantity for the acting force, a diaphragm-based pressure sensor that uses a force sensor of this type, a one- or two-dimensional position sensor that uses a multiplicity of force sensors of this type, and a fingerprint sensor that uses a multiplicity of such force sensors. | 03-12-2009 |
20100084639 | Electric 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 |
20100207104 | Electrical Organic Component and a Method for its Production - An electrical organic component includes a first electrode, an organic functional layer on the first electrode and a second electrode on the organic functional layer. The first and/or second electrodes contain rhenium compounds. | 08-19-2010 |
20110089408 | Organic Electronic Device and Dopant for Doping an Organic Semiconducting Matrix Material - An organic electronic device includes a substrate, a first electrode arranged on the substrate, at least a first functional organic layer arranged on the first electrode and a second electrode arranged on the first functional organic layer. The first functional organic layer includes a matrix material and a p-dopant with regard to the matrix material, wherein the p-dopant includes a copper complex containing at least one ligand. | 04-21-2011 |
20110124141 | Method for Producing a Doped Organic Semiconducting Layer - A process is provided for producing a doped organic semiconductive layer, comprising the process steps of A) providing a matrix material, B) providing a dopant complex, and C) simultaneously applying the matrix material and the dopant complex to a substrate by vapor deposition, wherein, in process step C), the dopant complex is decomposed and the pure dopant is intercalated into the matrix material. | 05-26-2011 |
20110198578 | SILOLES 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 |
20110291080 | Electronic 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 |
20120012821 | SILYL- 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 |
20120205645 | HETEROLEPTIC CARBENE COMPLEXES AND THE USE THEREOF IN ORGANIC ELECTRONICS - The present invention relates to heteroleptic complexes comprising a phenylimidazole or phenyltriazole unit bonded via a carbene bond to a central metal atom, and phenylimidazole ligands attached via a nitrogen-metal bond to the central atom, to OLEDs which comprise such heteroleptic complexes, to light-emitting layers comprising at least one such heteroleptic complex, to a device selected from the group consisting of illuminating elements, stationary visual display units and mobile visual display units comprising such an OLED, to the use of such a heteroleptic complex in OLEDs, for example as emitter, matrix material, charge transport material and/or charge blocker. | 08-16-2012 |
20120286253 | Organic Electronic Device and Method for the Production Thereof - An organic electronic device comprising: a substrate; ( | 11-15-2012 |
20130099209 | Dopant for a Hole Conductor Layer for Organic Semiconductor Components, and Use Thereof - The invention relates to novel metal-organic materials for hole injection layers in organic electronic components. For example, in light-emitting components such as organic light diodes (OLED) or organic light-emitting electrochemical cells (OLEEC) or organic field effect transistors or organic solar cells or organic photo detectors. Luminescence (cd/m | 04-25-2013 |
20140060900 | ANCHOR GROUP FOR MONOLAYERS OF ORGANIC COMPOUNDS ON METAL AND COMPONENT PRODUCED THEREWITH BY MEANS OF ORGANIC ELECTRONICS - An anchor group anchors organic dielectric compounds used in the production of organically based capacitors. The capacitors referred to are those that can be produced in a parallel process on a prepeg or other common printed circuit board substrate without additional metallisation on copper. The pre-fabricated capacitor layer can then be built into the printed circuit board, thereby gaining on space and cost for the surface of the printed circuit board. | 03-06-2014 |
20140103310 | COMPLEXATION OF LOW-MOLECULAR SEMICONDUCTORS FOR THE APPLICATION AS AN EMITTER COMPLEX IN ORGANIC LIGHT-EMITTING ELECTROCHEMICAL CELLS (OLEECS) - The invention relates to an OLEEC component and to a production process therefor. This component has an active layer including a novel emitter complex. This complex is formed by the coordination of low molecular weight semiconductors around a central cation. The complexation allows wet-chemical processing of low molecular weight semiconductors. This also allows formation of emitter complexes from effective hole or electron transport materials. | 04-17-2014 |
20140107364 | Organic Electronic Device and Dopant for Doping an Organic Semiconducting Matrix Material - An organic electronic device includes a substrate, a first electrode arranged on the substrate, at least a first functional organic layer arranged on the first electrode and a second electrode arranged on the first functional organic layer. The first functional organic layer includes a matrix material and a p-dopant with regard to the matrix material, wherein the p-dopant includes a copper complex containing at least one ligand. | 04-17-2014 |
20140264313 | Organic Electronic Component with Dopant, Use of a Dopant and Method for the Production of the Dopant - An organic electronic component includes an organic functional layer having a p-dopant. The p-dopant includes a copper complex having at least one ligand containing an aryloxy group and an iminium group. Additionally specified are the use of a copper complex as a p-dopant and a process for producing a p-dopant. | 09-18-2014 |
20140361286 | Optoelectronic device and method for producing an optoelectronic device - An optoelectronic device, comprising: a first organic functional layer structure; a second organic functional layer structure; and a charge generating layer structure between the first organic functional layer structure and the second organic functional layer structure, wherein the charge generating layer structure comprises: a first electron-conducting charge generating layer; wherein the first electron-conducting charge generating layer comprises or is formed from an intrinsically electron-conducting substance; a second electron-conducting charge generating layer; and an interlayer between first electron-conducting charge generating layer; and second electron-conducting charge generating layer; and wherein the interlayer comprises at least one phthalocyanine derivative. | 12-11-2014 |
20150060804 | ORGANIC ELECTRONIC COMPONENTS HAVING ORGANIC SUPERDONORS HAVING AT LEAST TWO COUPLED CARBENE GROUPS AND USE THEREOF AS AN N-TYPE DOPANTS - An organic electron transport layer n-dopant. The n-dopant is used to construct organic electronic components, transistors, organic light-emitting diodes, light-emitting electrochemical cells, organic solar cells, photodiodes, and electronic components containing said n-dopant. | 03-05-2015 |