Class / Patent application number | Description | Number of patent applications / Date published |
252519310 | The organic compound contains silicon | 10 |
20090101873 | ELECTROMAGNETIC INTERFERENCE SHIELDING POLYMER COMPOSITES AND METHODS OF MANUFACTURE - An electromagnetic interference shielding composite is provided. The electromagnetic interference shielding composite comprises: a high permittivity polymer having a permittivity of at least about 5; a plurality of magnetic particles dispersed within the high permittivity polymer; and a plurality of dielectric particles dispersed within the high permittivity polymer. In another embodiment, an article comprising a device susceptible to electromagnetic radiation and a shielding material disposed to shield the device from electromagnetic radiation is provided. The shielding material comprises, a high permittivity polymer; a plurality of magnetic particles dispersed within the high permittivity polymer; and plurality of dielectric particles dispersed within the high permittivity polymer. | 04-23-2009 |
20090140218 | TRANSPARENT CONDUCTIVE MATERIAL AND TRANSPARENT CONDUCTOR - The present invention provides a transparent conductive material with little change in electric resistance under influence of temperature or humidity and a transparent conductive membrane using the same. | 06-04-2009 |
20110062391 | MANUFACTURING METHOD OF COMPOUND SEMICONDUCTOR MATERIAL, AND COMPOUND SEMICONDUCTOR MATERIAL USING THE SAME - The present invention provides a manufacturing method of group III-V compound semiconductor material including a step of making a metal oxide nano-particle of a group III metal element reductively react to a group-V-element-containing compound in order to manufacture compound semiconductor material comprised of two or more element compounds. | 03-17-2011 |
20110186790 | FLUORINATED HYBRID COMPOSITIONS - Described are compositions comprising a fluorine containing or fluorine and silicon containing polymer, with a reactive diluent, and optionally non-reactive oligomeric additives, crosslinkers, or inorganic particles, which upon curing provides coatings with a good balance of adhesion, mechanical properties, scratch resistance, low surface energy, repellency, and transparency. The compositions are useful as a topcoat, particularly in optical applications. | 08-04-2011 |
20130234080 | CONDUCTIVE PROTECTIVE FILM, TRANSFER MEMBER, PROCESS CARTRIDGE, AND IMAGE-FORMING APPARATUS - A conductive protective film has a surface layer including a resin and, as a conducting material, an inorganic metal oxide having a structural constitution or an inorganic metal oxide having an aspect ratio, which is a ratio between a short axis and a long axis, of approximately 10 or more. | 09-12-2013 |
20140084225 | ANTISTATIC RELEASE AGENT, ANTISTATIC RELEASE COATED FILM AND ANTISTATIC RELEASE BASE MATERIAL - The present invention relates to an antistatic release agent comprising an aqueous solution of an electrically conductive polymer complex composed of a π-conjugated electrically conductive polymer and a polyanion having an anionic group in a molecule thereof, an alkaline compound, a silicone emulsion and a dispersion medium, wherein the alkaline compound is at least one type of compound selected from the group consisting of an inorganic alkali, as amine compound and a nitrogen-containing aromatic cyclic compound, the content of the alkaline compound in the antistatic release agent is 0.7 times or more relative to the number of moles of the neutralization equivalent of the electrically conductive polymer complex, and the pH of the antistatic release agent at 25° C. is 10 or lower. The present invention can provide an antistatic release agent having superior storage stability for forming an antistatic release coated film. | 03-27-2014 |
20140264193 | Preparation of Quantum Dot Beads Having a Silyl Surface Shell - Quantum dots (QDs) are encapsulated within microbeads having a silyl surface shell. The microbeads are prepared by copolymerizing unsaturated resins and an unsaturated organosilane in the presence of QDs. During the copolymerization, the unsaturated resin and the organosilane phase separate, forming beads having a silyl surface shell surrounding an essentially unsilylated interior. The QDs are encapsulated within the interior. The silyl shell provides a barrier against oxygen and other contaminants diffusing into the bead and reacting with the QDs. | 09-18-2014 |
20140339480 | SILANE-CONTAINING PIGMENT PARTICLES FOR ELECTROPHORETIC DISPLAY - The present invention is directed to an electrophoretic display fluid, in particular, pigment particles dispersed in a solvent or solvent mixture, and methods for their preparation. The pigment particles generated, according to the present invention, are stable in solvent under an electric field and can improve the performance of an electrophoretic display. | 11-20-2014 |
20150302947 | AGGLOMERATE COMPOSITION - A talc agglomerate composition may include agglomerated talc particles and an agglomerization agent, and may have a conductivity of from about 1 to about 50 μS/cm. A method for making a talc agglomerate composition may include agglomerating talc particles by combining a talc feed material including talc particles and an agglomerization agent to form a talc agglomerate composition. The talc agglomerate composition may have a d | 10-22-2015 |
20160137916 | OPTICAL MATERIAL, OPTICAL FILM, AND LIGHT-EMITTING DEVICE - An objective of the present invention is to provide an optical material which has high luminous efficiency and durability that enables suppression of deterioration of semiconductor nanoparticles for a long period of time, said deterioration being caused by oxygen or the like. Another objective of the present invention is to provide: an optical film which has high luminous efficiency and durability; and a light emitting device which is provided with this optical film. An optical material according to the present invention contains semiconductor nanoparticles, and is characterized in that: one or more semiconductor nanoparticles have a surface modifying agent and a surfactant on the surfaces thereof; the semiconductor nanoparticles have at least two coating layers on the outer side of the surface modifying agent and the surfactant; and at least one of the coating layers contains a metal oxide. | 05-19-2016 |