Patent application number | Description | Published |
20080315746 | Method of Manufacturing Fine Structure, Fine Structure, Display Unit, Method of Manufacturing Recoding Device, and Recoding Device - A method of manufacturing a fine structure capable of accurately controlling formation positions of tubular structures made of carbon or the like is provided. Column-shaped protrusions ( | 12-25-2008 |
20100040963 | COLOR FILTER AND PRODUCTION METHOD THEREOF, AND SOLID-STATE IMAGE SENSOR USING THE SAME - A method of producing a color filter includes (a) forming a colored pattern on a substrate by exposing and developing a colored curable composition containing a dye, a polymerizable monomer and an organic solvent, (b) forming a transparent protective film on the colored pattern, and (c) irradiating at least the transparent protective film with light after forming the transparent protective film on the colored pattern. | 02-18-2010 |
20120031483 | DYE-SENSITIZED SOLAR CELL AND PROCESS FOR PRODUCTION THEREOF - A photoelectric conversion element including a dye-sensitized solar cell is provided. The photoelectric conversion element may include an electrode having a titanium oxide layer containing spindle-shaped particles of titanium oxide of anatase type. A process for manufacturing the photoelectric conversion device is also provided. The process may include steps of providing a transparent conductive layer, forming a titanium oxide layer containing particles of peroxo-modified titanium oxide of anatase type adjacent to the transparent conductive layer, and baking the titanium oxide layer. Forming the titanium oxide layer may include forming a porous titanium oxide layer and dipping the porous titanium oxide layer in a dispersion containing particles of peroxo-modified titanium oxide of anatase type to the porous titanium oxide layer. Alternatively, forming the titanium oxide layer may include applying a titanium oxide paste containing particles of peroxo-modified titanium oxide of anatase type to the transparent conductive layer. | 02-09-2012 |
20130143357 | METHOD OF FORMING ORGANIC THIN FILM AND ORGANIC THIN FILM FORMING APPARATUS, AS WELL AS METHOD OF MANUFACTURING ORGANIC DEVICE - There is provided a method of forming an organic thin film, capable of forming a single-crystal organic thin film easily and rapidly while controlling a thickness and a size. After an organic solution is supplied to one surface (a solution accumulating region wide in width, and a solution constricting region narrow in width and connected thereto) of a film-formation substrate supported by a support controllable in temperature, a movable body controllable in temperature independently of the support is moved along a surface of the support while being kept in contact with the organic solution. The temperature of the support is set at a temperature positioned between a solubility curve and a super-solubility curve concerning the organic solution, and the temperature of the movable body is set at a temperature positioned on a side higher in temperature than the solubility curve. | 06-06-2013 |
20140154555 | SECONDARY BATTERY-USE ACTIVE MATERIAL, SECONDARY BATTERY-USE ELECTRODE, SECONDARY BATTERY, BATTERY PACK, ELECTRIC VEHICLE, ELECTRIC POWER STORAGE SYSTEM, ELECTRIC POWER TOOL, AND ELECTRONIC APPARATUS - A secondary battery includes: a cathode; an anode; and an electrolytic solution. The cathode includes a lithium-containing compound having an average composition represented by a following Formula (1), the lithium-containing compound includes a central section and a surface section, a molar ratio b1 of manganese (Mn) in the surface section is larger than a molar ratio b2 of Mn in the central section, a molar ratio 1+a1 of lithium (Li) in the surface section is smaller than a molar ratio 1+a2 of Li in the central section, and a ratio 1+a1/1+a2 between the molar ratio 1+a1 of Li in the surface section and the molar ratio 1+a2 of Li in the central section satisfies 0.5<1+a1/1+a2<1, | 06-05-2014 |
20140250118 | INFORMATION RETRIEVAL SYSTEM, METHOD, AND PROGRAM - An information retrieval method for retrieving documents relevant to a user's search inquiry from documents stored in the storage device using an arithmetic operation. The method includes receiving from a user a search query including a plurality of keywords, calculating relevance to a plurality of documents on the basis of the plurality of keywords and the influence set for each keyword, and displaying on the display device documents in the order of relevance. The method also includes displaying on the display device the influence set for each keyword, receiving changes to the displayed influence by the user, and recalculating the relevance on the basis of a change to the influence and displaying on the display device documents in the order of relevance. | 09-04-2014 |
20140264314 | METHOD FOR MANUFACTURING ORGANIC SEMICONDUCTOR ELEMENT, SEMICONDUCTOR ELEMENT, AND ELECTRONIC APPARATUS - An organic single crystal thin film includes an organic single crystal formed on a substrate across a boundary between a first region of the substrate and a second region of the substrate that is adjacent to the first region. The first region has a different shape or size than the second region. | 09-18-2014 |
20140312335 | MANUFACTURING METHOD OF ORGANIC SEMICONDUCTOR ELEMENT, ORGANIC SEMICONDUCTOR ELEMENT, GROWTH METHOD OF ORGANIC SINGLE CRYSTAL THIN FILM, ORGANIC SINGLE CRYSTAL THIN FILM, ELECTRONIC DEVICE, AND ORGANIC SINGLE CRYSTAL THIN FILM GROUP - Provided is a manufacturing method of an organic semiconductor element, the method including supplying an unsaturated organic solution obtained by dissolving an organic compound in a solvent to a growth control region and at least one nucleation control region of a base body having, on one principal plane, the growth control region and the nucleation control region which is provided on one side of the growth control region to be coupled with the growth control region, and allowing an organic semiconductor single crystal thin film composed of the organic compound to grow by evaporating the solvent of the organic solution. | 10-23-2014 |