Patent application number | Description | Published |
20090278138 | LAMINATED STRUCTURE AND IMAGE DISPLAY DEVICE - A laminated structure includes a wettability variable layer formed on a substrate, including a material whose critical surface tension varies by receiving energy so that high and low surface energy regions are formed; a conductive layer formed in one of the high surface energy regions; and an insulating layer formed in such a manner as to cover the conductive layer, wherein another one of the high surface energy regions is formed in such a manner as to surround a periphery of a circuit formation region in which a plurality of the conductive layers are formed; and the insulating layer is formed in such a manner as to also cover the another one of the high surface energy regions so that an adhesive guard ring region is formed between the wettability variable layer and the insulating layer. | 11-12-2009 |
20100224865 | ORGANIC 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 |
20100297456 | Diamine, Polyamic Acid and Polyimide - Disclosed is a diamine represented by a general formula of: | 11-25-2010 |
20100308321 | LAMINATED STRUCTURE, METHOD OF MANUFACTURING A LAMINATED STRUCTURE, ELECTRONIC ELEMENT, ELECTRONIC ELEMENT ARRAY, IMAGE DISPLAYING MEDIUM, AND IMAGE DISPLAYING DEVICE - Disclosed is a laminated structure, including a substrate, a wettability changing layer on the substrate, the wettability changing layer including a material, a critical surface tension of the material being changed by providing energy thereto, and an electrically conductor layer on the substrate, the electrically conductor layer formed on a region of the wettability changing layer, the region being provided with the energy, wherein the material includes a structural unit including a side chain and a structural unit including no side chain. | 12-09-2010 |
20110215306 | ORGANIC SEMICONDUCTOR ELEMENT AND ORGANIC ELECTRODE - To provide an organic semiconductor element, containing: a source electrode containing a first organic compound layer and a second organic compound layer, at least one of the layers having an organic semiconductor active region; and a drain electrode containing the first organic compound layer and the second organic compound layer, as well as providing an organic electrode, containing: a laminated film, in which a layer of a tetrathiafulvalene derivative expressed by the following general formula I and a layer of an electron accepting compound are laminated: | 09-08-2011 |
20120312583 | METHOD OF MANUFACTURING INTERCONNECTION MEMBER AND ELECTRONIC DEVICE, INTERCONNECTION MEMBER, MULTILAYERED INTERCONNECTIONS, ELECTRONIC DEVICE, ELECTRONIC DEVICE ARRAY AND DISPLAY DEVICE USING THE METHOD - A method of manufacturing an interconnection member includes forming on a substrate a wettability changing layer containing a material in which critical surface tension is changed by giving energy; forming a depression part in the wettability changing layer by a laser ablation method using a laser of an ultraviolet region; and coating the depression part with an electrically conductive ink to form an electrically conductive part. At the same time when a pattern of the depression part is formed in the wettability changing layer, a pattern of a high surface energy area is formed as a result of the critical surface tension being changed. | 12-13-2012 |
20120315498 | LAMINATE STRUCTURE, METHOD FOR MANUFACTUING LAMINATE STRUCTURE, ELECTRONIC ELEMENT ARRAY, IMAGE DISPLAYING MEDIUM, IMAGE DISPLAYING APPARATUS, DIAMINE, POLYAMIC ACID, AND POLYIMIDE - Disclosed is a laminate structure including a substrate, a wettability changing layer, and an electrical conductor layer, wherein the wettability changing layer and the electrical conductor layer are laminated on the substrate in order, wherein the wettability changing layer contains a polyimide, wherein the polyimide is obtainable by dehydrating and ring-opening a polyamic acid, wherein the polyamic acid is obtainable by ring-opening and addition-polymerizing a diamine and a tetracarboxylic acid dianhydride, wherein the diamine includes a compound represented by a general formula of: | 12-13-2012 |
20130069087 | MULTI-LAYER WIRING SUBSTRATE, ACTIVE MATRIX SUBSTRATE, IMAGE DISPLAY APPARATUS USING THE SAME, AND MULTI-LAYER WIRING SUBSTRATE MANUFACTURING METHOD - A multiple-layer wiring substrate having a first conductive layer; an interlayer insulating layer; and a second conductive layer is disclosed, wherein the interlayer insulating layer includes a material whose surface energy is changed by receiving energy, and has a first region which does not include a contact hole and a second region which is formed such that its surface energy is higher than that of the first region, wherein a region within the contact hole of the first conductive layer has surface energy which is higher than surface energy of the second region of the interlayer insulating layer, and wherein the second conductive layer is formed by laminating, wherein the second conductive layer is in contact with the second region of the interlayer insulating layer along the second region, and is connected to the first conductive layer via the contact hole. | 03-21-2013 |
20130095605 | LEAVING SUBSTITUENT-CONTAINING COMPOUND, ORGANIC SEMICONDUCTOR MATERIAL FORMED THEREFROM, ORGANIC ELECTRONIC DEVICE, ORGANIC THIN-FILM TRANSISTOR AND DISPLAY DEVICE USING THE ORGANIC SEMICONDUCTOR MATERIAL, METHOD FOR PRODUCING FILM-LIKE PRODUCT, PI-ELECTRON CONJUGATED COMPOUND AND METHOD FOR PRODUCING THE PI ELECTRON CONJUGATED COMPOUND - A leaving substituent-containing compound represented by General Formula (I), wherein the leaving substituent-containing compound can be converted to a compound represented by General Formula (Ia) and a compound represented by General Formula (II), by applying energy to the leaving substituent-containing compound, in General Formulas (I), (Ia) and (II), X and Y each represent a hydrogen atom or a leaving substituent, where one of X and Y is the leaving substituent and the other is the hydrogen atom; Q | 04-18-2013 |
20130096320 | ORGANIC SEMICONDUCTIVE MATERIAL PRECURSOR CONTAINING DITHIENOBENZODITHIOPHENE DERIVATIVE, INK, INSULATING MEMBER, CHARGE-TRANSPORTING MEMBER, AND ORGANIC ELECTRONIC DEVICE - An organic semiconductive material precursor containing a dithienobenzodithiophene derivative expressed by General Formula I: in General Formula I, X and Y represent groups bonded together, upon application of external stimulus, to form X—Y which is eliminated from the compound expressed by General Formula I; R | 04-18-2013 |
20140024841 | ORGANIC SEMICONDUCTIVE MATERIAL PRECURSOR CONTAINING DITHIENOBENZODITHIOPHENE DERIVATIVE, INK, INSULATING MEMBER, CHARGE-TRANSPORTING MEMBER, AND ORGANIC ELECTRONIC DEVICE - An ink containing an organic semiconductive material precursor containing a dithienobenzodithiophene derivative of the following formula: | 01-23-2014 |
20150008019 | WIRING BOARD AND MANUFACTURING METHOD THEREOF - A wiring board includes a variable wettability layer situated on a top surface of a support board and containing a material of which a critical surface tension changes by energy given thereto. A conductive layer is situated inside a concave portion formed in the variable wettability layer. The concave portion has opposite side walls formed in tapered surfaces inclining so that a distance between the side walls is reduced toward a bottom of the concave portion in a cross-sectional shape taken along a plane perpendicular to a conducting direction of the conductive layer. Upper edges of the side walls are formed in gently curved surfaces. | 01-08-2015 |
20150008589 | METHOD OF FORMING STACKED-LAYER WIRING, STACKED-LAYER WIRING, AND ELECTRONIC ELEMENT - A method of forming a stacked-layer wiring includes forming first wettability variable layer on a substrate using material that changes surface energy by energy application; forming first conductive layer in or on the first wettability variable layer; forming second wettability variable layer on the first wettability variable layer using material that changes surface energy by energy application; forming concave portion to become wiring pattern of second conductive layer to the second wettability variable layer while concurrently forming high surface energy area on surface exposed by forming the concave portion by changing surface energy; forming via hole by exposing a part of the first conductive layer while concurrently forming high surface energy area on surface exposed by forming the via hole by changing surface energy; and applying conductive ink to the high surface energy area to form the second conductive layer and via simultaneously. | 01-08-2015 |
Patent application number | Description | Published |
20090261320 | LAMINATED 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 |
20100072463 | LAMINATE 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 |
20100078642 | LAYERED STRUCTURE AND ELECTRON DEVICE THAT USES SUCH A LAYERED STRUCTURE, FABRICATION PROCESS THEREOF, ELECTRON DEVICE ARRAY AND DISPLAY APPARATUS - A layered structure comprises a variable wettability layer including a material that changes a critical surface tension in response to energy provided thereto, the wettability changing layer including at least a high surface energy part of large critical surface tension and a low surface energy part of low critical surface tension, a conductive layer formed on the variable wettability layer at the high surface energy tension part, and a semiconductor layer formed on the variable wettability layer at the low surface energy part. | 04-01-2010 |
20100181571 | LAMINATE STRUCTURE, ELECTRONIC DEVICE, AND DISPLAY DEVICE - A laminate structure is disclosed that has a region having high surface free energy and a region having low surface free energy that are well separated, has high adhesiveness between an underlying layer and a conductive layer, and can be formed easily with low cost. The laminate structure includes a wettability-variable layer including a first surface free energy region of a first film thickness and a second surface free energy region of a second film thickness, and a conductive layer formed on the second surface free energy region of the wettability-variable layer. The second film thickness is less than the first film thickness and the surface free energy of the second surface free energy region is made higher than the surface free energy of the first surface free energy region by applying a predetermined amount of energy on the second surface free energy region. | 07-22-2010 |
20100184936 | DIAMINE COMPOUND, POLYAMIC ACID, SOLUBLE POLYIMIDE, COMPOSITION, WETTABILITY CHANGING FILM, ELECTRODE, AND METHOD OF MANUFACTURING A WETTABILITY CHANGING FILM - Disclosed is a diamine compound represented by the following formula (1): wherein each of group A and group B is —O—, —COO—, —CONH—, or —OCO—; groups C are each independently —O—, —COO—, —CONH—, or —OCO—; and groups D are each independently a C1 to C20 linear, branched, or cyclic alkyl group unsubstituted or substituted with at least one halogen atom, or a certain dendritic group. | 07-22-2010 |
20110266549 | LAMINATED STRUCTURE, PRODUCTION METHOD OF THE SAME, MULTILAYER CIRCUIT BOARD, ACTIVE MATRIX SUBSTRATE, AND ELECTRONIC DISPLAY - A disclosed laminated structure includes a wettability-variable layer containing a wettability-variable material whose surface energy changes when energy is applied thereto and including at least a high-surface-energy area having high surface energy and a low-surface-energy area having low surface energy; and a conductive layer formed on the high-surface-energy area. The high-surface-energy area includes a first area and a second area extending from the first area and having a width smaller than that of the first area. | 11-03-2011 |