Patent application number | Description | Published |
20120165451 | SILICONE RUBBER COMPOSITION FOR OPTICAL SHEET, AND OPTICAL SHEET - Disclosed is a minable type silicone rubber composition including as an essential components: | 06-28-2012 |
20120228730 | MICROCHIP AND SOI SUBSTRATE FOR MANUFACTURING MICROCHIP - A plasma treatment or an ozone treatment is applied to the respective bonding surfaces of the single-crystal Si substrate in which the ion-implanted layer has been formed and the quartz substrate, and the substrates are bonded together. Then, a force of impact is applied to the bonded substrate to peel off a silicon thin film from the bulk portion of single-crystal silicon along the hydrogen ion-implanted layer, thereby obtaining an SOI substrate having an SOI layer on the quartz substrate. A concave portion, such as a hole or a micro-flow passage, is formed on a surface of the quartz substrate of the SOI substrate thus obtained, so that processes required for a DNA chip or a microfluidic chip are applied. A silicon semiconductor element for the analysis/evaluation of a sample attached/held to this concave portion is formed in the SOI layer. | 09-13-2012 |
20130125973 | SOLAR CELL MODULE AND LIGHT CONTROL SHEET FOR SOLAR CELL MODULE - A solar cell module includes a panel of transparent material that transmits sunlight, a panel of heat-conducting material arranged opposite to the sunlight incidence side, a light transmitting elastomer member, and a solar cell element. The light transmitting elastomer member and the solar cell element is interposed between the panel of transparent material and the panel of heat-conducting material, with the light transmitting elastomer member being disposed on the sunlight incidence side. The light-transmitting elastomer member presses the solar cell element against the panel of heat-conducting material. By altering the optical path of the direct incident light with the refractive action of the light transmitting elastomer, the solar cell module allows the finger electrodes and/or bus bar electrodes of the solar cell element to be placed in the region where there is less incident sunlight than the region where there is direct incident sunlight not affected by refractive action. | 05-23-2013 |
20130276884 | PHOTOVOLTAIC SILICONE ENCAPSULANT AND PHOTOVOLTAIC MODULE - A silicone composition for photovoltaic encapsulation is prepared by blending (A) an organopolysiloxane containing at least two silicon-bonded alkenyl groups per molecule, (B) an organohydrogenpolysiloxane containing at least two silicon-bonded hydrogen atoms per molecule, and (C) an addition reaction catalyst such that the composition when cured may have a water vapor permeability of 80-160 g/m | 10-24-2013 |
20130288453 | METHOD OF MANUFACTURING LAMINATED WAFER BY HIGH TEMPERATURE LAMINATING METHOD - A method of manufacturing a laminated wafer is provided by forming a silicon film layer on a surface of an insulating substrate comprising the steps in the following order of: applying a surface activation treatment to both a surface of a silicon wafer or a silicon wafer to which an oxide film is layered and a surface of the insulating substrate followed by laminating in an atmosphere of temperature exceeding 50° C. and lower than 300° C., applying a heat treatment to a laminated wafer at a temperature of 200° C. to 350° C., and thinning the silicon wafer by a combination of grinding, etching and polishing to form a silicon film layer. | 10-31-2013 |
20130323874 | MANUFACTURE OF SOLAR CELL MODULE - A solar cell module is manufactured by coating and curing a curable silicone gel composition onto one surface of each of two panels except a peripheral region to form a cured silicone gel coating, providing a seal member ( | 12-05-2013 |
20140014182 | SOLAR CELL MODULE AND METHOD FOR MANUFACTURING SAME - The present invention relates to a solar cell module which is characterized in that: a light-transmitting elastomer member and a solar cell element are arranged in a space between a panel of a transparent member upon which sunlight is incident and a panel of a thermally conductive member which is arranged on the side opposite to the sunlight incidence side in such a manner that the light-transmitting elastomer member is closer to the sunlight incidence side; and the solar cell element is pressed by the light-transmitting elastomer member toward the panel of a thermally conductive member so that the solar cell element is compression bonded thereto. This solar cell module is most suitable as a solar cell module that has excellent heat dissipation of a cell, the temperature of which is increased due to sunlight or a hot spot, and a structure that suppresses the production cost. | 01-16-2014 |
20140096885 | METHOD OF MANUFACTURING SOLAR CELL MODULE - A method of manufacturing a solar cell module includes adhering a first silicone gel sheet to one surface of a transparent light receiving panel to be a sunlight incidence surface; adhering a second silicone gel sheet to one surface of a light non-receiving panel on the side opposite to the sunlight incidence surface; disposing a solar cell string on the first silicone gel sheet of the light receiving panel, and disposing butyl rubber in a picture frame-like shape along an outer peripheral portion of the first silicone gel sheet; and laying the light receiving panel and the non-receiving panel over each other with the silicone gel sheets on the inside, and pressing them at 100 to 150° C. in vacuum to encapsulate the solar cell string with the silicone gel sheets and press bond the light receiving panel and the non-receiving panel to each other through the butyl rubber. | 04-10-2014 |
20140099746 | METHOD OF MANUFACTURING SOLAR CELL MODULE - A method of manufacturing a solar cell module includes pressing a first silicone gel sheet provided on a sunlight receiving surface and a second silicone gel sheet provided on an opposite side sunlight non-receiving surface in vacuum to encapsulate the solar cell string with the first and second silicone gel sheets; disposing the sunlight receiving side of the first silicone gel sheet on one surface of a transparent light receiving panel and disposing butyl rubber in a picture frame-like shape along an outer peripheral portion of the first silicone gel sheet and laying the light receiving panel and the light non-receiving panel or back sheet over each other with the silicone gel sheet-encapsulated solar cell string on the inside, and pressing them at 100 to 150° C. in vacuum to press bond the light receiving panel and the non-receiving panel to each other through the butyl rubber. | 04-10-2014 |
20150064831 | MANUFACTURE OF SOLAR CELL MODULE - A solar cell module is manufactured by encapsulating a solar cell matrix comprising a plurality of electrically connected solar cell components between a transparent panel and a backsheet with a resin. The method involves (i) embossing opposite surfaces of a green silicone rubber sheet, (ii) arranging a transparent panel ( | 03-05-2015 |