Patent application number | Description | Published |
20100217787 | CONTROLLER, INFORMATION RECORDING DEVICE, ACCESS DEVICE, INFORMATION RECORDING SYSTEM, AND INFORMATION RECORDING METHOD - In a file system such as an FAT file system, clusters are linked only in the forward direction. To perform seeks to clusters in the reverse direction, links need to be followed from the beginning side of the file data in every seeking operation. When a large amount of data is subjected to such reverse seeking, the overhead will be particularly large. A memory controller ( | 08-26-2010 |
20100332717 | ACCESS DEVICE, INFORMATION RECORDING DEVICE, CONTROLLER, AND INFORMATION RECORDING SYSTEM - Provided is a method that, in the case of managing areas of a non-volatile memory of an information recording module by a file system, increases the speed of processing for writing file data and file system management information, and furthermore prevents a decrease in the rewriting lifetime of the non-volatile memory. The information recording module ( | 12-30-2010 |
20110022807 | WRITE ONCE RECORDING DEVICE - An access device | 01-27-2011 |
20110138117 | MEMORY CONTROLLER, NONVOLATILE STORAGE DEVICE, ACCESSING DEVICE, NONVOLATILE STORAGE SYSTEM, AND METHOD AND PROGRAM FOR WRITING DATA - A digital still camera performs temporary high-speed writing when capturing a large number of images in a short time. Lengthy processing for erased block allocation or copying performed inside a nonvolatile storage device may disable the captured images to be written completely (may cause some frames to drop). A nonvolatile storage system includes an access device ( | 06-09-2011 |
20120023358 | HOST DEVICE, PERIPHERAL DEVICE, COMMUNICATION SYSTEM, AND COMMUNICATION METHOD - In a communication system in which data is transmitted and received in synchronization with a clock signal, a peripheral device cannot transfer data to a host device when the host device stops outputting the clock signal and thus the peripheral device cannot promptly transmit an interrupt request to the host device. A peripheral device transmits an interrupt request to a host device using a signal line for a clock signal when the clock signal output has been stopped. The host device receives the interrupt request, and resumes outputting a clock signal to enable data transmission and reception to and from the peripheral device. This enables the peripheral device to transmit an interrupt request to the host device promptly when the output of the clock signal from the host device has been stopped. | 01-26-2012 |
20130290586 | ACCESS DEVICE, COMMUNICATION DEVICE, COMMUNICATION SYSTEM, AND DATA ACCESS METHOD - The access device comprises a memory and a device controller configured to send and receive a data control right between the data recording device and a central controller provided in a host device. When having received a request to interrupt transfer of data from the central controller while data is being transferred from the data recording device, the device controller releases the data control right from the data recording device, and has the data recording device determine whether or not mismatching has occurred in file system management information for data stored in the memory. The device controller then returns the data control right to the data recoding device when it is determined that mismatching has occurred in the file system management information. The data recording device releases the data control right after eliminating the mismatching in the file system management information according to the returned data control right. | 10-31-2013 |
Patent application number | Description | Published |
20080283192 | METHOD AND APPARATUS FOR BONDING OPTICAL DISC SUBSTRATES TOGETHER, AND METHOD FOR SUPPLYING LIQUID MATERIAL - The object of the present invention is to significantly inhibit the formation of voids between substrates bonded together when a liquid adhesive is supplied onto an optical disc substrate or when the optical disc substrate is bonded to another optical disc substrate. Accordingly, the present invention discloses a method for bonding two optical disc substrates together which comprises the steps of joining the optical disc substrates together with an adhesive and curing the adhesive, wherein the adhesive is supplied onto the optical disc substrate by an electric field formed between the adhesive-supplying nozzle, for supplying the adhesive onto the optical disc substrate, and the optical disc substrate, and the two optical disc substrates are then joined together and subjected to spun by a spinning process. | 11-20-2008 |
20100101834 | INTERLAYER INSULATION FILM, INTERCONNECT STRUCTURE, AND METHODS OF MANUFACTURING THEM - An interlayer insulation film can be produced by laminating a hydrocarbon layer containing an Si atom and a fluorocarbon layer containing an N atom on each other, wherein the hydrocarbon layer contains an H atom and a C atom at such a ratio that the ratio of the number of C atoms to the number of H atoms (H/C) becomes 0.8 to 1.2. The interlayer insulation film makes it possible to suppress generation of a leak current and the film shrinkage which may be caused by thermal annealing and has a low dielectric constant and is stable. | 04-29-2010 |
20100132933 | METHANE HYDRATE DISSOCIATION ACCELERATING AND METHANE GAS DERIVING SYSTEM - It is an object of the present invention to provide a deriving technique with economy and technical difficulty improved without depending on fuel consumption for a heat source when methane gas is derived from a methane hydrate layer. Warm water is pumped up by a pump from an underground aquifer present 1000 to 1500 m below the seabed, geothermal energy is caused to flow through a permeable layer below a methane hydrate layer, a dissociation boundary surface of an un-dissociated area of the methane hydrate layer is dissociated to generate methane gas, the methane gas is led into a production well from peripheral areas and through a gas inlet screen and caused to rise so that the methane gas is collected on the sea. | 06-03-2010 |
20100264116 | PLASMA ETCHING METHOD - A plasma etching method includes plasma-etching a silicon oxide layer through a mask using a process gas, the process gas containing oxygen gas and a fluorohydrocarbon shown by the formula (1), CxHyFz, wherein x is an integer from 4 to 6, y is an integer from 1 to 4, and z is a positive integer, provided that (y+z) is 2x or less. A contact hole having a very small diameter and a high aspect ratio can be formed in a substantially vertical shape without necking by plasma-etching the silicon oxide layer using a single process gas. | 10-21-2010 |
20100273326 | METHOD FOR PURIFYING UNSATURATED FLUOROCARBON COMPOUND, METHOD FOR FORMING FLUOROCARBON FILM, AND METHOD FOR PRODUCING SEMICONDUCTOR DEVICE - A method for purifying an unsaturated fluorocarbon compound includes causing a crude unsaturated fluorocarbon compound shown by the formula C | 10-28-2010 |
20110124928 | Gas production facility, gas supply container, and gas for manufacture of electronic devices - An apparatus for producing a gas using a raw material gas having high reactivity, in particular, a fluorinated hydrocarbon, or a vessel for supplying the gas, characterized in that the surface of a portion thereof contacting with the gas has an average roughness of 1 μm or less in terms of a center line average roughness Ra. It is preferred that an oxide-based passivated film such as a film based on chromium oxide, aluminum oxide, yttrium oxide, magnesium oxide or the like is formed on the surface having a roughness controlled as above. The above apparatus and vessel can be suitably used for preventing the contamination of a raw material gas originated from a gas production apparatus or a vessel for supplying the gas. | 05-26-2011 |
20110232827 | METHOD OF MANUFACTURING BONDED MEMBER AND BONDED MEMBER MANUFACTURING APPARATUS - It can prevent extension of the time required for bonding, even when relatively large members are bonded. a bonded member manufacturing apparatus comprises a first holder 11 for holding a first member D, a second holder 12 for holding a second member E, an application device 40 for applying the intermediate substance G to a first bonded surface Df, a moving device 20 for moving the first holder 11 and/or the second holder 12, and a controller. The controller controls the first holder 11, the second holder 12 and the moving device 20 so that a first extended plane De and a second extended plane Ee are arranged such that the first extended plane De and the second extended plane Ee oppose each other in parallel and such that a range where the first bonded surface Df overlaps with the second bonded surface Ef is equal or smaller than a predetermined range when viewed in a direction of the thickness, and then so that the first member D is moved relatively to the second member E in a direction that the range where the first bonded surface Df overlaps with the second bonded surface Ef gradually increases when viewed in the direction of the thickness while maintaining a distance between the first extended plane De and the second extended plane Ee. | 09-29-2011 |
20140090775 | SHEET PASTING METHOD AND SHEET PASTING TOOL - An adherend surface of an adherend is stuck with a protection sheet being in substantially the same shape as the adherend surface and including base and adhesive layer by a method including: sticking the sheet on a first surface of a sticking tool foldable along a symmetry-axis position of the sheet; folding the tool with the sheet such that a second surface opposite to the first surface comes inside; peeling the sheet to a folded portion of the tool to expose a portion of the adhesive layer with the tool folded; pressing the exposed portion of the adhesive layer against the adherend surface to stick a portion of the sheet on the adherend; and moving the tool along the adherend surface to expose a remaining portion of the adhesive layer and pressing the remaining portion against the adherend surface to stick a remaining portion of the sheet on the adherend. | 04-03-2014 |
20140150951 | METHOD AND APPARATUS FOR MANUFACTURING BONDED MEMBER - A method and an apparatus is capable of manufacturing a bonded member faster without protrusion of the adhesive. An adhesive in an amount which becomes a predetermined thickness when two rectangular members are bonded together is applied in advance on bonded surfaces of the two members, the applied adhesives of the two members are brought into contact with each other and one of the two members is made to slide along the bonded surface and the two members are overlapped, a portion of the adhesive which is likely to protrude from the two overlapped members is cured before protrusion of the adhesive, and the two overlapped members are pressurized while protrusion of the adhesive is prevented so as to manufacture a bonded member. | 06-05-2014 |
20140158291 | METHOD FOR MANUFACTURING BONDED MEMBER - A method for manufacturing a bonded member is disclosed in which spread of an adhesive between two members can be performed in a short time and manufacturing time of a bonded member can be reduced. A predetermined area of at least either one of bonded surfaces of two members is coated with an adhesive, while a spreading adhesive is applied on at least either one of the bonded surfaces of the two members, and the bonded surfaces of the two members are caused to face each other, the spreading adhesive is brought into contact with the coating adhesive of the other member or the other member, the two members are pressurized so as to spread the spreading adhesive, and the two members are bonded together so as to manufacture a bonded member. | 06-12-2014 |
Patent application number | Description | Published |
20100001952 | STORAGE MEDIUM STORING INFORMATION PROCESSING PROGRAM, INFORMATION PROCESSING APPARATUS AND INFORMATION PROCESSING METHOD - A game apparatus includes a CPU, and the CPU controls a moving object within a virtual space on the basis of acceleration data and angular velocity data which are transmitted from a controller. For example, before the angular velocity data is above a predetermined magnitude, a position and an orientation of the moving object is controlled on the basis of the angular velocity data. When the angular velocity data is above the predetermined magnitude, an initial velocity of the moving object is decided on the basis of the acceleration data, and a moving direction (orientation) of the moving object is decided on the basis of the angular velocity data. Thereafter, the moving object moves within the virtual space according to a general physical behavior. | 01-07-2010 |
20120154377 | COMPUTER-READABLE STORAGE MEDIUM HAVING STORED THEREIN DISPLAY CONTROL PROGRAM, DISPLAY CONTROL APPARATUS, DISPLAY CONTROL SYSTEM, AND DISPLAY CONTROL METHOD - A game apparatus acquires a designated position Q, on an image, which corresponds to a touch position T detected by a touch panel, and a depth value of the designated position Q. A game apparatus calculates a designated three-dimensional position P in a three-dimensional virtual space, based on the designated position Q on the image and the depth value. The game apparatus next determines an orientation of a cursor object to arrange the cursor object at the calculated designated three-dimensional position P. The game apparatus next uses a virtual camera to take an image of the virtual space including the cursor object, and displays the image on an upper LCD. | 06-21-2012 |
20130324253 | Storage Medium Storing Information Processing Program, Information Processing Apparatus and Information Processing Method - A game apparatus includes a CPU, and the CPU controls a moving object within a virtual space on the basis of acceleration data and angular velocity data which are transmitted from a controller. For example, before the angular velocity data is above a predetermined magnitude, a position and an orientation of the moving object is controlled on the basis of the angular velocity data. When the angular velocity data is above the predetermined magnitude, an initial velocity of the moving object is decided on the basis of the acceleration data, and a moving direction (orientation) of the moving object is decided on the basis of the angular velocity data. Thereafter, the moving object moves within the virtual space according to a general physical behavior. | 12-05-2013 |
20140357358 | NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM HAVING INFORMATION PROCESSING PROGRAM STORED THEREON, INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING SYSTEM, AND INFORMATION PROCESSING METHOD - Diversification of a game field is realized while maintaining appropriate visibilities of the game field and a player object. An information processing apparatus includes: an object control section which controls movement of the virtual object by performing, based on a predetermined condition, switching between a first and a second state in which a virtual object movable region in the virtual space is restricted to a first and a second region, respectively; an image generation section which generates an image taken by a virtual camera; and a virtual camera control section which sets, in the first state, the position of the virtual camera to a first viewpoint that is a high-angle viewpoint with respect to the first region, and sets, in the second state, the position of the virtual camera to a second viewpoint that is a viewpoint other than the high-angle viewpoint. | 12-04-2014 |
Patent application number | Description | Published |
20090203039 | MONOCLONAL ANTIBODY TO SOLUBLE LOX-1 - It is intended to provide a monoclonal antibody that specifically recognizes human soluble LOX-1, particularly a monoclonal antibody with a dissociation constant (Kd) for human soluble LOX-1 of 1×10 | 08-13-2009 |
20110248253 | ORGANIC 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 |
20120068171 | ORGANIC ELECTROLUMINESCENT ELEMENT - In an organic electroluminescent element, light extraction efficiency is enhanced. An organic electroluminescent element | 03-22-2012 |
20150034926 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element includes a functional layer which is interposed between the first electrode and the second electrode and includes a light-emitting layer. The second electrode includes at least an electrically conductive polymer layer which is in contact with the functional layer and has a light transmissive property. The organic electroluminescence element includes: a substrate; a sealing substrate with a light transmissive property; a transparent protection layer covering an element part including a stack of the first electrode, the functional layer and the second electrode; and a resin layer which is interposed between the transparent protection layer and the sealing substrate and has a light transmissive property. | 02-05-2015 |
20150179971 | ORGANIC ELECTROLUMINESCENT ELEMENT - The organic electroluminescent element includes: a substrate; a first electrode on a surface of the substrate; a second electrode opposite the first electrode; and a functional layer that is between the first electrode and the second electrode and includes at least a light emission layer. In this organic electroluminescent element, the first electrode is a metal electrode and also is a light-reflective electrode, the second electrode is a light-transmissive electrode, and thus light is allowed to emerge outside from the second electrode. The light emission layer is of a polymer material and has an in-plane direction and a thickness direction. A refractive index in the in-plane direction of the light emission layer is greater than a refractive index in the thickness direction of the light emission layer. | 06-25-2015 |
20150380674 | ORGANIC EL ELEMENT - An organic EL element including: first and second electrode layers; an organic EL layer located therebetween and including a light-emitting layer; an insulating layer extending between the electrode layers at least in a region where the organic EL layer is not present; and a sealing layer located on the other side of the second electrode layer from the organic EL layer, the sealing layer covering at least the organic EL layer. The insulating layer includes first and second sections provided between the electrode layers. The second section is thicker than the first section and not closer to the organic EL layer. At least a part of the second section is not covered by the sealing layer. The first section is entirely covered by the sealing layer. The insulating layer located between the electrode layers and not covered by the sealing layer is entirely included in the second section. | 12-31-2015 |
Patent application number | Description | Published |
20080275852 | INFORMATION PROCESSING SYSTEM, APPARATUS AND METHOD FOR INFORMATION PROCESSING, AND RECORDING MEDIUM - An information processing system includes a plurality of first information processing apparatuses, each of the plurality of first information processing apparatuses being configured to add search information and post content, and a second information processing apparatus for holding the search information matching the content posted from at least one of the plurality of first information processing apparatuses. Upon receipt of a request to provide the content which is previously retrieved from one of the first information processing apparatus, the second information processing apparatus performs another search based on a search condition stored at a last search by the second information processing apparatus itself or by the one of the first information processing apparatuses, and provides the content which is newly retrieved to the one of the first information processing apparatus in response to the request. | 11-06-2008 |
20150229857 | SIGNAL PROCESSING APPARATUS, SIGNAL PROCESSING METHOD, IMAGE PICKUP ELEMENT, AND IMAGING APPARATUS - Provided is a signal processing apparatus, including: an A/D conversion unit configured to perform A/D conversion of a first signal, A/D conversion of a second signal, A/D conversion of a third signal, and A/D conversion of a fourth signal; and a correlated double sampling processing unit configured to generate a first output signal by performing correlated double sampling using a first digital data item obtained through the A/D conversion of the first signal, and a second digital data item obtained through the A/D conversion of the second signal, a second output signal by performing correlated double sampling using a third digital data item obtained through the A/D conversion of the third signal, and a fourth digital data item obtained through the A/D conversion of the fourth signal, and a third output signal by performing correlated double sampling using the first output signal and the second output signal. | 08-13-2015 |
Patent application number | Description | Published |
20120172511 | COVERING MATERIAL FOR ELECTRIC WIRE - A polyvinyl chloride-type covering material for electric wire that has an excellent damage-resistance property, cold-resistance property and low-temperature property after aging. The covering material containing a polyvinyl chloride comprises, with respect to 100 parts by mass of the polyvinyl chloride, (A) 15 to 30 parts by mass of a plasticizer comprising 15 parts by mass or more of one or more plasticizers selected from trimellitate plasticizers and pyromellitate plasticizers, (B) 2 to 10 parts by mass of a chlorinated polyolefin, and (C) 1 to 6 parts by mass of a methyl methacrylate-butadiene-styrene copolymer. | 07-05-2012 |
20140060925 | COVERING MATERIAL FOR ELECTRIC WIRE, INSULATED ELECTRIC WIRE, AND WIRING HARNESS - A covering material for electric wire, and an insulated electric wire and a wiring harness including the same, wherein the wire including the covering material has a reduced diameter, is inserted into a connector. The covering material containing a polyvinyl chloride comprises, with respect to 100 parts by mass of the polyvinyl chloride, 10 to 20 parts by mass of a plasticizer, 1 to 6 parts by mass of a chlorinated polyethylene, and 1 to 6 parts by mass of an MBS resin, and a total amount of the chlorinated polyethylene and the MBS resin is 2 to 7 parts by mass. The wire has an external diameter of smaller than 1.1 mm, and comprises a conductor | 03-06-2014 |
Patent application number | Description | Published |
20130119368 | ORGANIC 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 |
20130126853 | ORGANIC EL DEVICE - An organic EL device includes a first substrate including a cathode layer (a first electrode layer), an organic layer formed on the cathode layer, an anode layer (a second electrode layer) formed on the organic layer, and a second substrate joined to the anode layer by an adhesive layer. The anode layer is provided so as to extend to an outer peripheral side of a region where the organic layer is present, the second substrate and the adhesive layer are not present in a portion which faces a region at an outer peripheral side of the extended anode layer, and the cathode layer and the extended anode layer are exposed from the second substrate to constitute a cathode taking-out portion and an anode taking-out portion, respectively. | 05-23-2013 |
20130126854 | ORGANIC EL DEVICE - An organic EL device includes a first substrate including a cathode layer and a smoothing layer, an organic layer formed on the cathode layer, an anode layer formed on the organic layer, and a second substrate joined to the anode layer. In a region of a peripheral portion of the first substrate, the organic layer is not formed. The anode layer is provided on the cathode layer through an insulating layer in a portion of the region so as to extend to an outer peripheral side, the extended anode layer is folded back to a side opposite to the second substrate to constitute an anode taking-out portion, and a portion of the cathode layer of the first substrate is folded back to constitute a cathode taking-out portion. | 05-23-2013 |
20130240861 | ORGANIC ELECTROLUMINESCENCE ELEMENT - Providing an organic electroluminescence element that can reduce the unevenness of the brightness and can improve the external quantum efficiency. The organic electroluminescence element includes a substrate | 09-19-2013 |
20130320324 | ORGANIC EL DEVICE AND METHOD OF MANUFACTURING ORGANIC EL DEVICE - An organic EL device includes: a first substrate having electrical conductivity; an organic layer formed on the first substrate; a second substrate having translucency; and an electrode layer formed on the second substrate. The electrode layer on the first substrate and the organic layer on the second substrate contact each other. The organic layer is not formed in the peripheral portion of the second substrate. In the region where the organic layer is not formed, a portion of the electrode layer is provided to extend, and the first substrate is not present to face the extended electrode layer, and the portion of the electrode layer is exposed to form an electrode portion. Thus, the electrode portion can be formed by a simple procedure in which, for example, the first substrate is removed, and the organic EL device can be efficiently manufactured. | 12-05-2013 |
20140008628 | ORGANIC ELECTROLUMINESCENCE DEVICE - An organic EL device includes a metal layer which is provided with a nano-order-sized unevenness on one surface and plural organic layers which include a light emitting layer provided on the one surface side of the metal layer, and a height of each unevenness at respective interfaces in the organic layer is made smaller than an unevenness provided on the metal layer. According to the above configuration, the unevenness on one surface of the metal layer changes a surface plasmon to a propagation light and a light loss can be suppressed, and moreover, each unevenness of respective interfaces of the respective organic layers is made smaller than the unevenness on the surface of the metal layer, so that a short circuit inside the device can be suppressed. | 01-09-2014 |
20140014936 | ORGANIC THIN FILM AND ORGANIC ELECTROLUMINESCENT ELEMENT CONTAINING SAME IN LIGHT-EMITTING LAYER - In an organic thin film (a light emitting layer) of an organic EL element, an organic thin film having an emitting material which is made up of an organic polymer main backbone polymerized with a molecular chain, which emits light having a maximum value at a wavelength different from a wavelength at which an emission spectrum emitted by the main backbone itself has a maximum value, and nanosized particles which are mixed into the emitting material is used as the light emitting layer. According to the above configuration, the maximum values of the emission spectra of light emitted by the molecular chain and the main backbone of the emitting material can be increased. Moreover, the light which has the emission spectra having the plural maximum values can be generated without depending on the plural emitting materials, so that the light emitting layer can be manufactured easily. | 01-16-2014 |
20140027756 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element in accordance with the present invention includes: a light-emitting layer; a first electrode layer on a first surface in a thickness direction of the light-emitting layer; a second electrode layer on a second surface in the thickness direction of the light-emitting layer; an electrically conductive layer; and an insulating layer. The light-emitting layer is configured to emit light when a predetermined voltage is applied between the first and second electrode layers. The second electrode layer includes an electrode part covering the second surface and an opening part formed in the electrode part to expose the second surface. The electrically conductive layer is designed to allow the light to pass therethrough, and is interposed between the second surface and the second electrode layer to cover the second surface. The insulating layer is interposed between the second surface and the electrically conductive layer to overlap the electrode part. | 01-30-2014 |
20140084277 | ORGANIC ELECTROLUMINESCENCE ELEMENT - The organic electroluminescence element in accordance with the present invention includes: a light-emitting layer; a first electrode layer disposed on a first surface in a thickness direction of the light-emitting layer; a second electrode layer disposed on a second surface in the thickness direction of the light-emitting layer; and an electrically conductive layer. The light-emitting layer is configured to emit light when a predetermined voltage is applied between the first electrode layer and the second electrode layer. The second electrode layer includes an electrode part covering the second surface and an opening part formed in the electrode part to expose the second surface. The electrically conductive layer is configured to allow the light to pass therethrough, and is formed on an exposed region of the second surface exposed through the opening part in such a way as to be electrically connected to the electrode part and the light-emitting layer. | 03-27-2014 |
20140097427 | ORGANIC ELECTROLUMINESCENCE ELEMENT AND PRODUCTION METHOD THEREFOR - The organic electroluminescence element of the present invention includes: a first substrate; a second substrate facing the first substrate; an element member between the first and second substrates; first and second extension electrodes on first and second inner surfaces of the first and second substrates facing the element member; and an insulating member having an electrically insulating property. The element member includes: a functional layer including a light-emitting layer and having first and second surfaces in a thickness direction; and first and second electrode layers on the respective first and second surfaces of the functional layer. The element member is between the first and second extension electrodes such that parts of the first and second electrode layers are in contact with the first and second extension electrodes respectively. The insulating member is between the first and second inner surfaces of the respective first and second substrates. | 04-10-2014 |
20140103324 | ORGANIC ELECTROLUMINESCENT ELEMENT - The organic electroluminescence element in accordance with the present invention includes: a functional layer including a light-emitting layer and having a first surface and a second surface in a thickness direction; a first electrode layer positioned on the first surface of the functional layer; a second electrode layer positioned on the second surface of the functional layer; and a hygroscopic member absorbing moisture. The second electrode layer includes a patterned electrode. The patterned electrode includes: an electrode part covering the second surface of the functional layer; and an opening part formed in the electrode part to expose the second surface of the functional layer. The hygroscopic member is positioned on the electrode part to expose the opening part. | 04-17-2014 |
Patent application number | Description | Published |
20130105916 | HIGH SELECTIVITY NITRIDE ETCH PROCESS | 05-02-2013 |
20130105996 | LOW ENERGY ETCH PROCESS FOR NITROGEN-CONTAINING DIELECTRIC LAYER | 05-02-2013 |
20130108833 | HIGH FIDELITY PATTERNING EMPLOYING A FLUOROHYDROCARBON-CONTAINING POLYMER | 05-02-2013 |
20150118839 | WET CLEAN PROCESS FOR REMOVING CxHyFz ETCH RESIDUE - A method for cleaning etch residues that may include treating an etched surface with an aqueous lanthanoid solution, wherein the aqueous lanthanoid solution removes an etch residue that includes a majority of hydrocarbons and at least one element selected from the group consisting of carbon, oxygen, fluorine, nitrogen and silicon. In one example, the aqueous solution may be cerium ammonium nitrate (Ce(NH | 04-30-2015 |
20150118854 | MOLECULAR RADICAL ETCH CHEMISTRY FOR INCREASED THROUGHPUT IN PULSED PLASMA APPLICATIONS - As device feature size shrinks, plasma induced damage is a major concern affecting micro-electronic and nano-electronic device fabrication. Pulsed plasmas are a means of mitigating the damages. However, in conventional standard etch chemistry, the etch rate for pulsed plasmas is reduced significantly resulting in a substantially decreased throughput of tech processes. A new etch chemistry is disclosed in the present invention to increase throughput in pulsed plasma applications driven mainly by the molecular radicals. | 04-30-2015 |
20150318182 | ETCH RATE ENHANCEMENT FOR A SILICON ETCH PROCESS THROUH ETCH CHAMBER PRETREATMENT - Pretreatment of an etch chamber for performing a silicon etch process and Bosch process can be effected by running a deposition process employing C | 11-05-2015 |
20160111374 | LOW ENERGY ETCH PROCESS FOR NITROGEN-CONTAINING DIELECTRIC LAYER - A stack that includes, from bottom to top, a nitrogen-containing dielectric layer, an interconnect level dielectric material layer, and a hard mask layer is formed on a substrate. The hard mask layer and the interconnect level dielectric material layer are patterned by an etch. Employing the patterned hard mask layer as an etch mask, the nitrogen-containing dielectric layer is patterned by a break-through anisotropic etch, which employs a fluorohydrocarbon-containing plasma to break through the nitrogen-containing dielectric layer. Fluorohydrocarbon gases used to generate the fluorohydrocarbon-containing plasma generate a carbon-rich polymer residue, which interact with the nitrogen-containing dielectric layer to form volatile compounds. Plasma energy can be decreased below 100 eV to reduce damage to physically exposed surfaces of the interconnect level dielectric material layer. | 04-21-2016 |