Patent application number | Description | Published |
20110274933 | LAMINATE, METHOD FOR PRODUCING SAME, ELECTRONIC DEVICE MEMBER, AND ELECTRONIC DEVICE - A laminate comprises a gas barrier layer and an inorganic compound layer, the gas barrier layer being formed of a material that includes at least an oxygen atom, a carbon atom, and a silicon atom, the gas barrier layer having an oxygen atom content rate that gradually decreases from the surface of the gas barrier layer in the depth direction, and having a carbon atom content rate that gradually increases from the surface of the gas barrier layer in the depth direction. An electronic device member includes the laminate, and an electronic device includes the electronic device member. The laminate exhibits an excellent gas barrier capability and excellent transparency, and does not produce cracks (i.e., the gas barrier capability does not deteriorate) even when the laminate is folded. The laminate exhibits an excellent gas barrier capability and an excellent impact-absorbing capability even if an impact is applied from the outside. | 11-10-2011 |
20120041116 | FORMED ARTICLE, METHOD FOR PRODUCING SAME, ELECTRONIC DEVICE MEMBER, AND ELECTRONIC DEVICE - Disclosed is a formed article comprising an ion-implanted layer obtained by implanting ions of a silicon compound into a polymer layer. Also disclosed are: a method of producing the formed article, the method comprising implanting ions of a silicon compound into a surface of a polymer layer of a formed body that includes the polymer layer in its surface; an electronic device member comprising the formed article; an electronic device comprising the electronic device member. Consequently, the present invention provides: a formed article which has excellent gas barrier capability, bendability and surface flatness; a method of producing the formed article, an electronic device member comprising the formed article; an electronic device comprising the electronic device member. | 02-16-2012 |
20120059147 | METHOD FOR SITE-SELECTIVELY CLEAVING TARGET NUCLEIC ACID - There is provided a method for cleaving a target nucleic acid at a desired site using a metal ion or a metal ion complex as a catalyst for cleaving a nucleic acid (DNA, etc.), which has high site-selectivity, high reaction efficiency and low side-reactivity (non-specific reactivity), and is economical and convenient. The method for cleaving a target nucleic acid of the present invention comprises allowing a target nucleic acid to come into contact with a specific complex compound and a metal ion or a metal complex, or allowing a target nucleic acid to come into contact with a specific complex compound, to which a metal ion or a metal complex binds. | 03-08-2012 |
20120064321 | FORMED ARTICLE, METHOD FOR PRODUCING THE FORMED ARTICLE, MEMBER FOR ELECTRONIC DEVICE, AND ELECTRONIC DEVICE - A formed article includes a gas barrier layer that is formed of a material including at least an oxygen atom and a silicon atom, a surface area of the gas barrier layer having an oxygen atom content rate of 60 to 75%, a nitrogen atom content rate of 0 to 10%, and a silicon atom content rate of 25 to 35%, based on the total content of oxygen atoms, nitrogen atoms, and silicon atoms, and having a film density of 2.4 to 4.0 g/cm | 03-15-2012 |
20120088880 | Formed Article, Method for Producing Same, Electronic Device Member, and Electronic Device - Disclosed is a formed article comprising a layer obtained by implanting ions of a hydrocarbon compound into a polyorganosiloxane compound-containing layer. Also disclosed are: a method of producing the formed article, the method comprising implanting ions of a hydrocarbon compound into a surface of a polyorganosiloxane compound-containing layer of a formed body that includes the polyorganosiloxane compound-containing layer in its surface; an electronic device member that includes the formed article; and an electronic device that includes the electronic device member. The present invention provides; a formed article which exhibits an excellent gas barrier capability, transparency, bendability, antistatic performance, and surface flatness; a method of producing the formed article, an electronic device member, and an electronic device. | 04-12-2012 |
20120101221 | FORMED ARTICLE, METHOD OF PRODUCING SAME, ELECTRONIC DEVICE MEMBER, AND ELECTRONIC DEVICE - A formed article comprising a gas barrier layer that is formed of a material including at least an oxygen atom, a carbon atom, and a silicon atom, the gas barrier layer including an area (A) where an oxygen atom content rate gradually decreases, and a carbon atom content rate gradually increases in a depth direction from a surface, the area (A) including a partial area (A | 04-26-2012 |
20120108761 | FORMED ARTICLE, METHOD OF PRODUCING SAME, ELECTRONIC DEVICE MEMBER, AND ELECTRONIC DEVICE - A formed article comprising a layer obtained by implanting ions into a polycarbosilane compound-containing layer, a method of producing the formed article, an electronic device member, and an electronic device comprising the electronic device member. The formed article has an excellent gas barrier capability, excellent transparency, excellent bendability, excellent adhesion, and excellent surface flatness. | 05-03-2012 |
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 |
20130202900 | FORMED BODY, PRODUCTION METHOD THEREOF, ELECTRONIC DEVICE MEMBER AND ELECTRONIC DEVICE - The present invention is a formed article sequentially comprising a base layer, a primer layer that includes a hydroxyl group-containing polymer, and a gas barrier layer, the gas barrier layer being formed of a material that includes at least an oxygen atom and a silicon atom, a surface layer part of the gas barrier layer having an oxygen atom content rate of 60 to 75%, a nitrogen atom content rate of 0 to 10%, and a silicon atom content rate of 25 to 35%, based on a total content rate of oxygen atoms, nitrogen atoms, and silicon atoms, and the surface layer part of the gas barrier layer having a film density of 2.4 to 4.0 g/cm | 08-08-2013 |
20130209800 | ADHESIVE SHEET AND ELECTRONIC DEVICE - The invention pertains to an adhesive sheet including a base material having thereon at least a gas barrier layer and an adhesive layer, wherein the gas barrier layer is constituted of a material containing at least an oxygen atom and a silicon atom; in a surface layer part of the gas barrier layer, an existing proportion of an oxygen atom is from 60 to 75%, an existing proportion of a nitrogen atom is from 0 to 10%, and an existing proportion of a silicon atom is from 25 to 35% relative to a total existing amount of the oxygen atom, the nitrogen atom, and the silicon atom; and a film density in the surface layer part of the gas barrier layer is from 2.4 to 4.0 g/cm | 08-15-2013 |
20140199544 | MODIFIED POLYSILAZANE FILM AND METHOD FOR PRODUCING GAS BARRIER FILM - Provided are a modified polysilazane film that is preferable as an intermediate material for forming a predetermined gas barrier film, and a method for producing a gas barrier film having excellent gas barrier properties using such modified polysilazane film as an intermediate material. | 07-17-2014 |
20140342149 | GAS BARRIER FILM AND METHOD FOR PRODUCING GAS BARRIER FILM - A gas barrier film having excellent gas barrier properties, and a method for producing such a gas barrier film are provided. | 11-20-2014 |