Patent application number | Description | Published |
20100006141 | PHOTOELECTRIC CONVERSION DEVICE AND MANUFACTURING METHOD OF PHOTOELECTRIC CONVERSION DEVICE - The purpose of the invention is to provide a highly reliable photoelectric conversion device having flexibility and resistance to external stress. In the photoelectric conversion device, following are included: a first sealing layer and a second sealing layer that are provided to face each other; and a photoelectric conversion element group which is provided by being interposed between the first sealing layer and second sealing layer that are provided to face each other. The first sealing layer includes a first structure body in which a first fibrous body is impregnated with a first organic resin, the second sealing layer includes a second structure body in which a second fibrous body is impregnated with a second organic resin, and a periphery of the photoelectric conversion element group includes a region where the first sealing layer and second sealing layer that are provided to face each other are attached to each other. | 01-14-2010 |
20100007829 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A flexible and highly reliable liquid crystal display device which is not easily damaged even if subjected to external pressure is provided. A method for manufacturing, with high yield, a flexible and highly reliable liquid crystal display device which is not easily damaged even if subjected to external pressure is also provided. A liquid crystal display device including a first structure body including a first fibrous body and a first organic resin, a second structure body including a second fibrous body and a second organic resin, a liquid crystal interposed between the first and second structure bodies, and a seal member for fixing the first and second structure bodies and for enclosing the liquid crystal. The first and second fibrous bodies are impregnated with the first and second organic resins, respectively, and the first structure body and the second structure body are in contact with each other. | 01-14-2010 |
20100007942 | Electronic Paper - An object of the present invention is to increase the resistance of electronic paper to external stress. The resistance to external stress is increased by providing an element formation layer, which includes an integrated circuit portion, a first electrode, a second electrode, and a charged particle-containing layer, between a first insulating film including a first structure body in which a first fibrous body is impregnated with a first organic resin, and a second insulating film including a second structure body in which a second fibrous body is impregnated with a second organic resin. | 01-14-2010 |
20110095298 | Electronic Paper - An object of the present invention is to increase the resistance of electronic paper to external stress. The resistance to external stress is increased by providing an element formation layer, which includes an integrated circuit portion, a first electrode, a second electrode, and a charged particle-containing layer, between a first insulating film including a first structure body in which a first fibrous body is impregnated with a first organic resin, and a second insulating film including a second structure body in which a second fibrous body is impregnated with a second organic resin. | 04-28-2011 |
Patent application number | Description | Published |
20100013372 | Light Emitting Device and Electronic Device - An object is to provide a highly reliable light emitting device which is thin and is not damaged by external local pressure. Further, another object is to manufacture a light emitting device with a high yield by preventing defects of a shape and characteristics due to external stress in a manufacture process. A light emitting element is sealed between a first structure body in which a fibrous body is impregnated with an organic resin and a second structure body in which a fibrous body is impregnated with an organic resin, whereby a highly reliable light emitting device which is thin and has intensity can be provided. Further, a light emitting device can be manufactured with a high yield by preventing defects of a shape and characteristics in a manufacture process. | 01-21-2010 |
20120326145 | Light Emitting Device and Electronic Device - An object is to provide a highly reliable light emitting device which is thin and is not damaged by external local pressure. Further, another object is to manufacture a light emitting device with a high yield by preventing defects of a shape and characteristics due to external stress in a manufacture process. A light emitting element is sealed between a first structure body in which a fibrous body is impregnated with an organic resin and a second structure body in which a fibrous body is impregnated with an organic resin, whereby a highly reliable light emitting device which is thin and has intensity can be provided. Further, a light emitting device can be manufactured with a high yield by preventing defects of a shape and characteristics in a manufacture process. | 12-27-2012 |
20140291667 | DISPLAY DEVICE AND ELECTRONIC DEVICE - A novel display device capable of excellent reflective display is provided. The display device includes a transistor including a gate electrode layer, a gate insulating layer over the gate electrode layer, a semiconductor layer over the gate insulating layer, and a source electrode layer and a drain electrode layer over the gate insulating layer and the semiconductor layer; a reflective electrode layer on the same plane as the source electrode layer and the drain electrode layer; a coloring layer overlapping with the reflective electrode layer; a pixel electrode layer overlapping with the coloring layer; and an anti-oxidation conductive layer connected to one of the source electrode layer and the drain electrode layer. The pixel electrode layer is connected to the transistor through the anti-oxidation conductive layer. | 10-02-2014 |
20140306201 | LIGHT-EMITTING MODULE, LIGHT-EMITTING PANEL, AND LIGHT-EMITTING DEVICE - One embodiment of the present invention relates to a light-emitting device comprising an insulating surface; a lower electrode over the insulating surface; a protrusion over the insulating surface having a sidewall sloping toward the lower electrode; a light-transmitting partition overlapping with an end portion of the lower electrode and the sidewall of the protrusion; and a light-emitting element including the lower electrode, an upper electrode overlapping with the lower electrode, and a layer containing a light-emitting organic compound between the lower electrode and the upper electrode. In the light-emitting device, the sidewall of the protrusion can reflect light emitted from the light-emitting element. As a result, the light-emitting device that has reduced power consumption is provided. | 10-16-2014 |
20150060890 | Light Emitting Device and Electronic Device - An object is to provide a highly reliable light emitting device which is thin and is not damaged by external local pressure. Further, another object is to manufacture a light emitting device with a high yield by preventing defects of a shape and characteristics due to external stress in a manufacture process. A light emitting element is sealed between a first structure body in which a fibrous body is impregnated with an organic resin and a second structure body in which a fibrous body is impregnated with an organic resin, whereby a highly reliable light emitting device which is thin and has intensity can be provided. Further, a light emitting device can be manufactured with a high yield by preventing defects of a shape and characteristics in a manufacture process. | 03-05-2015 |
Patent application number | Description | Published |
20090261414 | Semiconductor Device and Method for Manufacturing the Same - An object is to improve water resistance and reliability of a semiconductor device by reducing the degree of peeling of a film. In a semiconductor device, a first inorganic insulating layer, a semiconductor element layer, a second inorganic insulating layer, an organic insulating layer, and a third inorganic insulating layer are sequentially stacked over a substrate. The second inorganic insulating layer is in contact with the first inorganic insulating layer in an opening portion provided in the semiconductor element layer. The third inorganic insulating layer is in contact with the second inorganic insulating layer in an opening portion provided in the organic insulating layer. In a region where the second inorganic insulating layer and the third inorganic insulating layer are in contact with each other, the second inorganic insulating layer has a plurality of irregularities or openings. | 10-22-2009 |
20090289340 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A conductive shield covering a semiconductor integrated circuit prevents electrostatic breakdown of the semiconductor integrated circuit (e.g., malfunction of a circuit and damage to a semiconductor element) due to electrostatic discharge. Further, with use of a pair of insulators between which the semiconductor integrated circuit is sandwiched, a highly reliable semiconductor having resistance can be provided while achieving reduction in the thickness and size. Moreover, also in the manufacturing process, external stress, or defective shapes or deterioration in characteristics resulted from electrostatic discharge are prevented, and thus the semiconductor device can be manufactured with high yield. | 11-26-2009 |
20090289341 | SEMICONDUCTOR DEVICE - An object is to provide a highly reliable semiconductor device having resistance to external stress and electrostatic discharge while achieving reduction in thickness and size. Another object is to prevent defective shapes and deterioration in characteristics due to external stress or electrostatic discharge in a manufacture process to manufacture a semiconductor device with a high yield. A first insulator and a second insulator facing each other, a semiconductor integrated circuit and an antenna provided between the first insulator and the second insulator facing each other, a conductive shield provided on one surface of the first insulator, and a conductive shield provided on one surface of the second insulator are provided. The conductive shield provided on one surface of the first insulator and the conductive shield provided on one surface of the second insulator are electrically connected. | 11-26-2009 |