Patent application number | Description | Published |
20110030781 | PASTE FOR DYE-SENSITIZED SOLAR CELL, TRANSPARENT INSULATION FILM FOR DYE-SENSITIZED SOLAR CELL, DYE-SENSITIZED SOLAR CELL, AND DYE-SENSITIZED SOLAR CELL FABRICATION METHOD - A paste containing a silica polymer, made by substituting at least some of the surface functional groups thereof with alkyl groups, and solvent-removable inorganic particles is prepared, and the paste is applied and fired to form a transparent insulating film in a dye-sensitized solar cell. | 02-10-2011 |
20110094561 | DYE-SENSITIZED SOLAR CELL, METHOD OF PRODUCING THE SAME, AND DYE-SENSITIZED SOLAR CELL MODULE - Provided are a dye-sensitized solar cell wherein a counter electrode composed of a stable counter electrode conductive layer and a catalyst layer is formed on a porous insulation layer, and a dye-sensitized solar cell module wherein the dye-sensitized solar cell is utilized. A dye-sensitized solar cell includes a supporting body made of a light-transmissive material, and a laminate wherein a conductive layer, a photoelectric conversion layer having a porous semiconductor layer with a dye adsorbed therein, a porous insulation layer, a counter electrode conductive layer, and a catalyst layer are laminated in the order presented. The photoelectric conversion layer and the porous insulation lay are filled with a carrier transport material. | 04-28-2011 |
20120211048 | WET SOLAR CELL AND WET SOLAR CELL MODULE - A wet solar cell includes a substrate having a light-receiving surface, a seal portion disposed opposite to the substrate, a first electrode formed on the top surface of a side of the substrate that is opposite to the seal portion, an insulating frame disposed between the first electrode and the seal portion to surround four sides so that a space is formed inside the insulating frame, a photoelectric conversion portion formed on a top surface of the first electrode, and a second electrode formed to extend toward the seal portion from a top surface of another first electrode adjacent to the first electrode and having a top surface partially located opposite to the seal portion. In the space, a gap communicating with the portion between the insulating frame and the photoelectric conversion portion is formed between the second electrode and the seal portion. | 08-23-2012 |
20120298176 | SOLAR CELL AND SOLAR CELL MODULE - A solar cell includes a light transmissive substrate, a supporting substrate, a photoelectric conversion part and a counter electrode disposed between the light transmissive substrate and the supporting substrate in such a manner that they are spaced from each other; an electrolyte part disposed between the light transmissive substrate and the supporting substrate while being in contact with the photoelectric conversion part and the counter electrode, and a sealing part that surrounds and seals the electrolyte part in such a manner that the electrolyte part is retained within an electrolyte disposition region. First openings that make the electrolyte part communicate with the outside are provided at least in one end part in the electrolyte disposition region, and at least one second opening that makes the electrolyte part communicate with the outside is provided in the middle part in the electrolyte disposition region. The first and second openings are sealed. | 11-29-2012 |
20120325285 | WET-TYPE SOLAR BATTERY AND WET-TYPE SOLAR BATTERY MODULE - A wet-type solar battery including a support composed of a light transmissive material and a stack in which a conductive layer, a photoelectric conversion layer containing a porous semiconductor, a porous insulating layer, and a counter electrode conductive layer are stacked in this order is provided. The conductive layer is divided into a first region including a portion where the photoelectric conversion layer is to be formed on a surface thereof and a second region where the photoelectric conversion layer is not to be formed. A protection film for preventing internal short-circuiting, which is not greater in film thickness than the photoelectric conversion layer, is formed in at least a part around the photoelectric conversion layer on the surface of the first region. | 12-27-2012 |
20130327374 | PHOTOELECTRIC CONVERSION DEVICE AND PHOTOELECTRIC CONVERSION DEVICE MODULE - A photoelectric conversion device according to the present invention includes a transparent or translucent substrate and a supporting substrate both fixed in place with a sealant. The photoelectric conversion device further includes a transparent electrically conductive layer disposed on the transparent or translucent substrate, a photoelectric conversion layer disposed on the transparent electrically conductive layer a counter electrically conductive layer in contact with or separated from the supporting substrate, a terminal electrode on the photoelectric conversion layer side electrically connected to the transparent electrically conductive layer, and a counter terminal electrode electrically connected to the counter electrically conductive layer. The transparent electrically conductive layer, the photoelectric conversion layer, and the counter electrically conductive layer contain a carrier transport material. | 12-12-2013 |
20140026938 | PHOTOELECTRIC CONVERSION ELEMENT AND PHOTOELECTRIC CONVERSION MODULE - A light transmitting substrate having at least a light receiving surface, a first electrode located on the light transmitting substrate, a collector electrode located on at least a part of the first electrode and formed from a metal thin film, a photoelectric conversion portion located on an upper surface of the first electrode or the collector electrode, carrying a photosensitizer, and immersed in a carrier transport material, an insulating frame portion surrounding sides of the photoelectric conversion portion, and a second electrode located to be opposed to the first electrode above the photoelectric conversion portion are provided. Relation of Isc×Rh<0.05×Voc is satisfied, where Isc represents a short-circuit current value of a dye-sensitized solar cell, Rh represents a total value of electrical resistance values of the collector electrode, the first electrode, and the second electrode, and Voc represents an open circuit voltage value of the dye-sensitized solar cell. | 01-30-2014 |
20140096813 | PHOTOELECTRIC CONVERSION ELEMENT AND PHOTOELECTRIC CONVERSION ELEMENT MODULE - There are provided a photoelectric conversion element and a photoelectric conversion element module including the photoelectric conversion element, the photoelectric conversion element including a transparent substrate, a transparent conductive layer arranged on the transparent substrate, a photoelectric conversion layer arranged on the transparent conductive layer, a porous insulating layer arranged in contact with the photoelectric conversion layer, a reflective layer arranged in contact with the porous insulating layer, and a catalyst layer and a counter conductive layer that are arranged on the reflective layer, in which the photoelectric conversion layer contains a porous semiconductor, a carrier-transport material, and a photosensitizer, and in which the area of the orthogonal projection of the porous insulating layer onto the transparent substrate and the area of the orthogonal projection of the reflective layer onto the transparent substrate are each larger than the area of the orthogonal projection of the photoelectric conversion layer onto the transparent substrate. | 04-10-2014 |
20140366933 | PHOTOELECTRIC CONVERSION ELEMENT - A photoelectric conversion element includes an optically transparent support, a porous semiconductor layer containing a photosensitizer, a conductive layer, and a counter electrode provided in that order, each of the porous semiconductor layer and the conductive layer containing an electrolytic solution. The photoelectric conversion element has an interfacial resistance Rs of 0.6 Ω·cm | 12-18-2014 |