Patent application number | Description | Published |
20120295120 | TRANSPARENT CONDUCTIVE FILM, PROCESS FOR PRODUCING SAME, AND ELECTRONIC DEVICE EMPLOYING TRANSPARENT CONDUCTIVE FILM - Disclosed is a transparent conductive film, including a substrate and, formed on at least one surface of the substrate, a gas barrier layer and a transparent conductive layer, wherein the gas barrier layer is formed of a material containing at least oxygen atoms, nitrogen atoms, and silicon atoms, and includes a surface layer part which has an oxygen atom fraction of 60 to 75%, a nitrogen atom fraction of 0 to 10%, and a silicon atom fraction of 25 to 35%, each atom fraction being calculated with respect to the total number of the oxygen atoms, nitrogen atoms, and silicon atoms contained in the surface layer part and which has a film density of 2.4 to 4.0 g/cm | 11-22-2012 |
20120301710 | TRANSPARENT CONDUCTIVE FILM, PROCESS FOR PRODUCING SAME, AND ELECTRONIC DEVICE EMPLOYING TRANSPARENT CONDUCTIVE FILM - A transparent conductive film which exhibits excellent gas barrier performance and electrical conductivity, and exhibits low sheet resistivity and high electrical conductivity, even after having been placed in moist and high-temperature conditions. The conductive film is in the form of a zinc oxide-based electrically conductive stacked structure, and the film includes a substrate and, formed on at least one surface of the substrate, (A) a gas barrier layer and (B) a transparent conductive layer formed of a zinc oxide-based conductive material, wherein the gas barrier layer is formed of a material containing at least oxygen atoms, carbon atoms, and silicon atoms, and includes a region in which the oxygen atom concentration gradually decreases and the carbon atom concentration gradually increases from the surface in the depth direction of the layer. | 11-29-2012 |
20130052458 | ZINC OXIDE-BASED CONDUCTIVE MULTILAYER STRUCTURE, PROCESS FOR PRODUCING THE SAME, AND ELECTRONIC DEVICE - A zinc-oxide-based conductive stacked structure | 02-28-2013 |
20130320322 | TRANSPARENT CONDUCTIVE LAMINATE BODY AND ORGANIC THIN FILM DEVICE - A problem is to provide a transparent conductive laminate body that has a low surface resistivity and an organic thin film device using the laminate body, and the problem is solved by a transparent conductive laminate body having a transparent substrate having laminated directly on at least one surface thereof in this order a conductive metal pattern layer and a conductive organic layer having a conductive organic polymer compound, a material for forming the conductive metal pattern layer being at least one metal selected from gold, silver, copper and platinum, or an alloy having the metal, and an organic thin film device using the same. | 12-05-2013 |
20150030829 | GAS BARRIER FILM LAMINATE, ADHESIVE FILM, AND ELECTRONIC COMPONENT - The present invention relates to a gas barrier film laminate comprising at least two gas barrier films, the gas barrier film laminate having a configuration in which two adjacent gas barrier films are stacked through a pressure-sensitive adhesive layer, and the pressure-sensitive adhesive layer having a shear load reduction ratio α (%) given by an expression (I) in claim | 01-29-2015 |
20150049440 | TRANSPARENT CONDUCTIVE LAMINATE AND ELECTRONIC DEVICE OR MODULE - The present invention is a transparent conductive laminate comprising a base, a low-refractive-index layer, an intermediate-refractive-index layer, and a transparent conductive layer, the low-refractive-index layer, the intermediate-refractive-index layer, and the transparent conductive layer being sequentially stacked on at least one side of the base either directly or through one or more layers, the low-refractive-index layer having a refractive index of 1.40 to 1.50, and the intermediate-refractive-index layer having a refractive index of 1.50 to 1.80 and a film density of 2.5 to 4.5 g/cm | 02-19-2015 |
20150099094 | GAS BARRIER LAMINATE, METHOD FOR PRODUCING SAME, MEMBER FOR ELECTRONIC DEVICES, AND ELECTRONIC DEVICE - The present invention provides: a gas barrier laminate comprising a base, a primer layer, and a gas barrier layer, the primer layer and the gas barrier layer being sequentially stacked on at least one side of the base, the primer layer having a modulus of elasticity at 90° C. of 1.6 GPa or more, and a coefficient of static friction between a surface of one side of the gas barrier laminate and a surface of the other side of the gas barrier laminate being 0.35 to 0.8; a method for producing the gas barrier laminate; an electronic device member comprising the gas barrier laminate; and an electronic device. | 04-09-2015 |
20150367602 | GAS BARRIER FILM LAMINATE, PRODUCTION METHOD THEREFOR, AND ELECTRONIC DEVICE - Provided is a gas barrier film laminate comprising at least two gas barrier films, the gas barrier film laminate having a structure in which two gas barrier films that are situated adjacent to each other are stacked through an adhesive layer, the adhesive layer being formed by curing an adhesive composition layer that is formed using an energy ray-curable adhesive composition by applying energy rays to the adhesive composition layer. Also provided are a method for producing the gas barrier film laminate and an electronic device comprising the gas barrier film laminate. The present invention provides: a gas barrier film laminate that exhibits an excellent moisture barrier capability, and rarely shows a deterioration in external appearance (e.g., due to occurrence of air bubbles) even when allowed to stand at a high temperature and a high humidity for a long time, a method for producing the gas barrier film laminate, and an electronic device that includes the gas barrier film laminate. | 12-24-2015 |