Patent application number | Description | Published |
20090253031 | ELECTROLYTE COMPOSITION, PHOTOELECTRIC CONVERSION ELEMENT USING THE SAME, AND DYE-SENSITIZED PHOTOVOLTAIC CELL - An electrolyte composition containing an ionic liquid and conductive particles, an electrolyte composition containing an ionic liquid and oxide semiconductor particles and optionally containing conductive particles, and an electrolyte composition containing an ionic liquid and insulating particles are provided. Furthermore, a photoelectric conversion element comprising: a working electrode, the working electrode comprising an electrode substrate and an oxide semiconductor porous film formed on the electrode substrate and sensitized with a dye; a counter electrode disposed opposing the working electrode; and an electrolyte layer made of these electrolyte compositions is provided. | 10-08-2009 |
20090272431 | COUNTER ELECTRODE FOR A PHOTOELECTRIC CONVERSION ELEMENT AND PHOTOELECTRIC CONVERSION ELEMENT - A photoelectric conversion element including: (1) a window electrode having a transparent substrate and a semiconductor layer provided on a surface of the transparent substrate, a sensitizing dye being adsorbed on the semiconductor layer; (2) a counter electrode having a substrate and a conductive film, provided on a surface of the substrate, that is arranged so as to face the semiconductor layer of the window electrode, and wherein the counter electrode has carbon nanotubes provided on the substrate surface via the conductive film; and (3) an electrolyte layer disposed at least in a portion between the window electrode and the counter electrode. | 11-05-2009 |
20090293953 | ELECTROLYTE COMPOSITION, PHOTOELECTRIC CONVERSION ELEMENT USING THE SAME, AND DYE-SENSITIZED PHOTOVOLTAIC CELL - An electrolyte composition containing an ionic liquid and conductive particles, an electrolyte composition containing an ionic liquid and oxide semiconductor particles and optionally containing conductive particles, and an electrolyte composition containing an ionic liquid and insulating particles are provided. Furthermore, a photoelectric conversion element comprising: a working electrode, the working electrode comprising an electrode substrate and an oxide semiconductor porous film formed on the electrode substrate and sensitized with a dye; a counter electrode disposed opposing the working electrode; and an electrolyte layer made of these electrolyte compositions is provided. | 12-03-2009 |
20100319762 | ELECTROLYTE COMPOSITION AND PHOTOELECTRIC CONVERSION ELEMENT USING SAME - An electrolyte composition is in solid form, and includes a polymer compound containing a cation structure selected from a group consisting of ammonium, phosphonium and sulfonium structures in either the principal chain or a side chain of the polymer, and a halide ion and/or a polyhalide as a counter anion. | 12-23-2010 |
20100326500 | ELECTROLYTE COMPOSITION AND PHOTOELECTRIC CONVERSION ELEMENT USING SAME - An electrolyte composition is in solid form, and includes a polymer compound containing a cation structure selected from a group consisting of ammonium, phosphonium and sulfonium structures in either the principal chain or a side chain of the polymer, and a halide ion and/or a polyhalide as a counter anion. | 12-30-2010 |
Patent application number | Description | Published |
20080254223 | FILM FORMING APPARATUS AND FILM FORMING METHOD - A film forming apparatus is provided which includes a device A that generates liquid fine particles having controlled particle diameters; a device B including a via for guiding the generated liquid fine particles while controlling a temperature thereof; a device C that sprays the guided liquid fine particles; and a device D including a space for forming a transparent conductive film by coating the sprayed liquid fine particles onto a subject to be processed. | 10-16-2008 |
20090165709 | FILM FORMING APPARATUS AND FILM FORMING METHOD - A film forming apparatus is provided which includes a device A that generates liquid fine particles having controlled particle diameters; a device B including a via for guiding the generated liquid fine particles while controlling a temperature thereof; a device C that sprays the guided liquid fine particles; and a device D including a space for forming a transparent conductive film by coating the sprayed liquid fine particles onto a subject to be processed. | 07-02-2009 |
20090191350 | FILM FORMING APPARATUS AND FILM FORMING METHOD - A film forming apparatus is provided which includes a device A that generates liquid fine particles having controlled particle diameters; a device B including a via for guiding the generated liquid fine particles while controlling a temperature thereof; a device C that sprays the guided liquid fine particles; and a device D including a space for forming a transparent conductive film by coating the sprayed liquid fine particles onto a subject to be processed. | 07-30-2009 |
20090317563 | ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREFOR - A manufacturing method for an electronic device, the method including forming a transparent conductive film, including conductive polymers, on a base material, and irradiating ultraviolet light onto a part of the transparent conductive film such that first regions of the transparent conductive film are not irradiated and second regions, adjacent to the first regions, are irradiated, thus forming irradiated portions and non-irradiated portions. The irradiated portions having an electrical resistance value higher than that of the non-irradiated portions. The ultraviolet light includes a wavelength that exhibits an absorbance in an absorption spectrum of the conductive polymers, of the transparent conductive film, two or more times higher than that of a background. | 12-24-2009 |
20130139880 | ELECTRODE SUBSTRATE AND PHOTOELECTRIC CONVERSION ELEMENT - Provided is an electrode substrate that has a transparent conductive layer, a current-collecting metal layer that is provided on the transparent conductive layer, and an insulating layer that covers the current-collecting metal layer on a base plate, wherein, when a thermal expansion coefficient of the base plate is defined as α, and a thermal expansion coefficient of the insulating layer is defined as β, α>β is satisfied, and in which the thickness of the transparent conductive layer is 0.05 to 5 μm. | 06-06-2013 |