Patent application number | Description | Published |
20100240164 | RADIATION DETECTOR MANUFACTURING METHOD - A coating film is formed by applying, on a tentative support, a dispersion solution in which at least an inorganic semiconductor particle and a binder are dispersed. Then, a radiation photoconductive layer is formed by subjecting the coating film to thermal compression, and the radiation photoconductive layer is joined to an active matrix layer in which multiple switching elements are arranged. This allows the radiation photoconductive layer to generate a charge in response to radiation of an electromagnetic wave representing image information and to be arranged such that the charge is read out by the active matrix layer. | 09-23-2010 |
20110111210 | HEAT RAY-SHIELDING MATERIAL - The present invention provides a heat ray-shielding material which includes metal particle-containing layer containing at least one kind of metal particle, wherein the metal particle contains substantially hexagonal or substantially discoidal metallic flat particles in an amount of 60% by number or more, and the main planes of the metallic flat particles are oriented at an angle ranging from 0° to ±30° relative to one surface of the metal particle-containing layer. | 05-12-2011 |
20120026580 | INFRARED LIGHT REFLECTIVE FILM - An infrared light reflective film comprising a dielectric multi-layered film constituted of an alternate laminate of a low-refractive index dielectric layer and a high-refractive index dielectric layer and a cholesteric liquid crystal-containing infrared light reflective layer, wherein all of the dielectric layers are composed of an inorganic material other than a metal and satisfy 225 nm≦ni×di≦350 nm in which ni represents a refractive index of an i-th dielectric layer and di represents a thickness of an i-th dielectric layer. | 02-02-2012 |
20130071651 | HEAT-RAY SHIELDING MATERIAL - A heat-ray shielding material including: two or more metal particle-containing layers each containing at least one kind of metal particles; and one or more transparent dielectric layers, the heat-ray shielding material having a lamination structure where the metal particle-containing layers and the dielectric layers are alternatingly laminated, wherein at least one of the transparent dielectric layers has an optical thickness (nd) which satisfies the following expression (1) with respect to wavelength λ | 03-21-2013 |
20130122281 | HEAT-RAY SHIELDING MATERIAL - A heat-ray shielding material including: a substrate; and a metal particle-containing layer containing at least one kind of metal particles, the metal particle-containing layer being on the substrate, wherein the metal particles contain flat metal particles each having a substantially hexagonal shape or a substantially disc shape in an amount of 60% by number or more, and wherein a coefficient of variation of a distribution of distances between centers of the flat metal particles adjacent to each other is 20% or less. | 05-16-2013 |
20130260139 | HEAT-RAY SHIELDING MATERIAL - A heat ray-shielding material including a heat ray-shielding layer which includes flat silver particles and metal oxide particles is provided. Preferable aspects include: an aspect of the metal oxide particles including tin-doped indium oxide particles; an aspect of the heat ray-shielding layer including flat silver particles and metal oxide particles mixed and dispersed in a binder; and an aspect of the heat ray-shielding layer including a flat silver particle-containing layer including the flat silver particles and a metal oxide particle-containing layer including the metal oxide particles laminated therein. | 10-03-2013 |
20140004338 | HEAT RAY-SHIELDING MATERIAL | 01-02-2014 |
20140272386 | HEAT RAY SHIELDING MATERIAL - A heat ray shielding material having a metal particles-containing layer that contains at least one type of metal particles, in which the metal particles contain tabular metal particles having a hexagonal to circular form in a ratio of at least 60% by number, the main plane of the hexagonal to circular, tabular metal particles is in plane orientation in a range of from 0° to ±30° on average relative to one surface of the metal particles-containing layer, and at least 80% by number of the hexagonal to circular, tabular metal particles exist in the range of from the surface to d/2, of the metal particles-containing layer where d indicates the thickness of the metal particles-containing layer, has good visible light transmittance, heat shieldability (solar reflectance) and rubbing resistance. | 09-18-2014 |