Patent application number | Description | Published |
20100151629 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICES - A wiring circuit layer | 06-17-2010 |
20100248428 | MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE - A wiring circuit layer | 09-30-2010 |
20110127657 | WIRING CIRCUIT STRUCTURE AND MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE USING THE STRUCTURE - A conductor layer | 06-02-2011 |
20120171359 | ORGANIC EL DEVICE MANUFACTURING METHOD AND APPARATUS - An organic EL device manufacturing method includes a step of supplying a substrate, and while moving the substrate with a non-electrode-layer side thereof in contact with a surface of a can roller, the non-electrode-layer provided with no electrode layer, discharging a material from a nozzle of a vapor deposition source to form an organic layer on an electrode-layer side of the substrate, the electrode-layer side provided with an electrode layer. The vapor deposition step includes supplying a shadow mask including an opening portion to interpose the shadow mask between the substrate contacting the can roller, and the nozzle; and forming the organic layer corresponding to the opening portion on the electrode-layer side of the substrate while moving the substrate and the shadow mask with through holes included at each of the substrate and the shadow mask engaged with projections included in the can roller. | 07-05-2012 |
20120286652 | METHOD FOR MANUFACTURING ORGANIC EL DEVICE, MANUFACTURING APPARATUS FOR ORGANIC EL DEVICE, AND ORGANIC EL DEVICE - A method for manufacturing an organic EL device, including: while supplying a strip-shaped substrate, forming an organic EL film on the substrate by successively vapor depositing at least an organic layer including a light-emitting layer and an electrode layer on one side of the substrate; and successively winding up the substrate on which the organic EL film is formed by the vapor deposition, wherein the substrate is wound up along with a strip-shaped protective film that is softer than the substrate while supplying the protective film and adhering the protective film to a non-vapor deposition side of the substrate. | 11-15-2012 |
20130193844 | ORGANIC ELECTRO-LUMINESCENCE LIGHT-EMITTING DEVICE AND PRODUCTION METHOD OF THE SAME - In order to provide an organic electroluminescent light-emitting device with less uneven brightness, which can be manufactured at low cost, a plurality of ribbon-like organic electroluminescent elements are connected to wires, which are connected to electrode terminals for energization at specific locations in a terminal region and mounted on a base material which has a substantially plate-like shape. | 08-01-2013 |
20130288402 | ORGANIC EL DEVICE MANUFACTURING METHOD AND APPARATUS - An organic EL device manufacturing method includes a vapor deposition step of supplying a substrate, and while moving the substrate with a side thereof, on which an electrode layer is not provided, in contact with a surface of a can roller that rotates, discharging an evaporated organic layer forming material from a nozzle of a vapor deposition source to form an organic layer over a side of the substrate on which the electrode layer is provided, wherein the vapor deposition step is performed while, using a distance measuring section capable of measuring a first distance to the substrate supported by the can roller, and a position adjusting section capable of adjusting a second distance between the nozzle of the vapor deposition source and a surface of the substrate, control is performed by the position adjusting section so that the second distance is constant. | 10-31-2013 |
20130320325 | SURFACE LIGHT-EMITTING OBJECT - A surface light emitter according to an embodiment of the present invention, includes: a base material; a plurality of ribbon-shaped organic electroluminescent elements provided side by side on the base material; and a lenticular sheet that is attached to the base material and the ribbon-shaped organic electroluminescent elements through an adhesion layer, and that has a plurality of convex cylindrical lenses provided side by side. A direction in which the convex cylindrical lenses extend and a direction in which the ribbon-shaped organic electroluminescent elements extend are substantially parallel to each other. | 12-05-2013 |
20140051198 | METHOD AND APPARATUS FOR MANUFACTURING ORGANIC EL DEVICE - Provided is a method for manufacturing an organic EL device, including: a vapor deposition step of forming an organic layer over a substrate moving relative to a nozzle by discharging a vaporized organic layer-forming material through the nozzle. The vapor deposition step is performed so that a light emitting region formed of the organic layer and having a width A (mm) in a direction perpendicular to a direction in which the substrate is moving is formed, and so that W≧A+2×h (where h≦5 mm) is satisfied, where a length of an opening of the nozzle in the direction perpendicular to the direction in which the substrate is moving is denoted by W (mm), and a distance between the opening and the substrate is denoted by h (mm). | 02-20-2014 |
20140216519 | METHOD FOR PRODUCING SOLAR BATTERY CELL AND SOLAR BATTERY MODULE - A method for producing a solar battery cell which hardly causes an electric short circuit at the cut end surface of a solar battery element is provided. A method for producing a solar battery cell in which a solar battery cell is obtained from an elongated solar battery element including an elongated flexible base material, a first electrode layer, a light absorbing layer, and a second electrode layer in this order, and the method includes a partial removal step of forming one or more partial removal portion each extending like a belt at a plurality of parts in the surface of the solar battery element by partially removing layers of the second electrode layer through to the light absorbing layer or the second electrode layer through to the first electrode layer, and a cutting step of cutting the solar battery element at the partial removal portion. | 08-07-2014 |
20140220729 | METHOD OF PRODUCING CIGS FILM, AND METHOD OF PRODUCING CIGS SOLAR CELL BY USING SAME - A CIGS film production method is provided which ensures that a CIGS film having a higher conversion efficiency can be produced at lower costs at higher reproducibility even for production of a large-area device. A CIGS solar cell production method is also provided for producing a CIGS solar cell including the CIGS film. The CIGS film production method includes: a stacking step of stacking a layer (A) containing indium, gallium and selenium and a layer (B) containing copper and selenium in a solid phase in this order over a substrate; and a heating step of heating a stacked structure including the layer (A) and the layer (B) to melt a compound of copper and selenium of the layer (B) into a liquid phase to thereby diffuse copper from the layer (B) into the layer (A) to permit crystal growth to provide a CIGS film. | 08-07-2014 |
20140295603 | METHOD FOR PRODUCING ORGANIC ELECTROLUMINESCENCE ELEMENT - A method is provided for producing an organic EL element having excellent electric properties in a relatively low cost. The method includes the steps of using a vapor deposition apparatus | 10-02-2014 |
20140306209 | ORGANIC EL DEVICE AND METHOD FOR PRODUCING THE SAME - An organic EL device and a method for forming the same, capable of obtaining a high light emission yield and improving long-term stability. The organic EL device is an organic EL device ( | 10-16-2014 |
20140327356 | WIRELESS ELECTRIC POWER SUPPLY TYPE LIGHT-EMITTING ELEMENT AND LIGHT-EMITTING DEVICE - A wireless electric power supply type light-emitting element | 11-06-2014 |
20150028319 | METHOD FOR PRODUCING ORGANIC EL DEVICE AND ORGANIC EL DEVICE - A method for producing an organic EL device and the organic EL device, capable of enhancing reliability of the organic EL device by suppressing peeling caused by stress concentration to each layer end through reduction in the stress concentration even in the case of using a roll-to-roll process. The method includes: supplying a substrate from a delivery roll to a wind-up roll; forming a first electrode layer over the substrate; forming an organic EL layer over the first electrode layer; and forming a second electrode layer over the organic EL layer. The first electrode layer s formed using a shadow mask. At least a part of a side surface of the first electrode layer is a tapered surface of inwardly sloping from a lower side toward an upper side. An angle formed between the tapered surface and the surface of the substrate on the side over which the first electrode layer is formed is 1° or less. | 01-29-2015 |