| Patent application number | Description | Published |
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| 20090032807 | Method of Manufacturing Semiconductor Element, Semiconductor Element, Electronic Device, and Electronic Equipment - The object of the present invention is to provide a method of manufacturing a semiconductor element which can produce a semiconductor element provided with a semiconductor layer having a high carrier transport ability, a semiconductor element manufactured by the semiconductor element manufacturing method, an electronic device provided with the semiconductor element, and electronic equipment having a high reliability. In order to achieve the object, the present invention is directed to a method of manufacturing a semiconductor element having an anode, a cathode, and a hole transport layer provided between the anode and the cathode, the method comprising steps of: a first step for forming layers mainly comprised of a hole transport material having polymerizable groups X on the side of one surface of the anode and on the side of one surface of the cathode, respectively, and a second step for obtaining the hole transport layer by integrating the two layers together by polymerizing the hole transport materials via a polymerization reaction through their polymerizable groups in a state that the layer on the side of the anode and the layer on the side of the cathode are made contact with each other. | 02-05-2009 |
| 20090102359 | Light emitting device and electronic equipment provided with the light emitting device - A light emitting device having excellent characteristics such as light emitting efficiency and the like and electrical equipment provided with such a light emitting device and having high reliability are provided. The light emitting device includes a light emitting layer | 04-23-2009 |
| 20090140635 | Porous semiconductor layer formation material - The object of the present invention is to provide a semiconductor layer formation material from which a semiconductor layer having a high carrier transport ability can be made, a method of forming a semiconductor element having a semiconductor layer having a high carrier transport ability, a semiconductor element formed by the semiconductor element manufacturing method, an electronic device provided with the semiconductor element, and electronic equipment having a high reliability. The semiconductor layer formation material includes a semiconductor material, porous particles each having a number of pores, and a dispersion medium, wherein the semiconductor material is existed in the semiconductor layer formation material in such a state that at least a part of the semiconductor material is filled in the pores of the porous particles. According to the semiconductor layer formation material it is possible to form a semiconductor layer having a high carrier transport ability can be made. | 06-04-2009 |
| 20090284128 | Light emitting apparatus and electronic equipment provided with the light emitting apparatus - A light emitting apparatus including a plurality of light emitting devices for different colors and having a simple structure with small variations in luminous brightness of each of the light emitting devices for the different colors is provided, and electronic equipment provided with such a light emitting apparatus is also provided. The light emitting apparatus is configured into a display apparatus | 11-19-2009 |
| Patent application number | Description | Published |
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| 20080252566 | Display, Display Method, and Electronic Device - A display, comprising: a planar display section; a pixel space provided next to a side adjacent to one surface of the display section and encapsulating a plurality of kinds of colorants, each kind having a different color; an accumulation section provided in the pixel space and accumulating the colorants; a separation system that separates a specific kind of colorant from the accumulated colorants in the accumulation section; a transfer system that selects at least one kind of colorant from the separated colorants and transfers this colorant to the side adjacent to the display section of the pixel space. The separation system performs separation utilizing the magnitude of a dielectrophoretic force generated in each colorant upon receipt of an alternating electric field of a specific frequency applied by this system, the magnitude varying depending on the kind of the colorant. A color of at least the one kind of colorant transferred by the transfer system is displayed at the display section. | 10-16-2008 |
| 20090081553 | Electrochemical device - An electrochemical device manufactured using an electrode layer in which severe increase of electrode resistance is prevented and/or a solid electrolyte layer in which severe decrease of ion conductivity of a solid electrolyte is prevented is provided. The electrochemical device includes a pair of electrode layers, and a solid electrolyte layer provided between the pair of electrode layers, wherein at least one layer of the electrode layers and the solid electrolyte layer is composed of first particles each providing a function of the at least one layer, second particles and a binder which is composed of an organic polymer and binds the first and second particles, and wherein the at least one layer is formed from a mixture material containing the first particles and binder particles, each of the binder particles including the second particle and the binder carried on at least a part of a surface thereof. | 03-26-2009 |
| 20090087730 | Battery device and all-solid lithium-ion secondary battery - A battery device comprises a first lead board having one surface and the other surface, a second lead board having one surface and the other surface, the one surface of the second lead board facing the one surface of the first lead board through a spacing, a first terminal electrode formed on the one surface of the first lead board, a second terminal electrode formed on the one surface of the second lead board, and a solid electrolyte of conducting a lithium ion provided in the spacing between the one surface of the first lead board and the one surface of the second lead board so as to cover at least one of the first terminal electrode and the second terminal electrode. Such a battery device can eliminate occurrence of short-circuit between the cathode and the anode, which likely to occur during the production of an all-solid secondary battery. Further, an all-solid lithium-ion secondary battery provided with the battery device is also provided. | 04-02-2009 |
| 20090142669 | SULFIDE-BASED LITHIUM-ION-CONDUCTING SOLID ELECTROLYTE GLASS, ALL-SOLID LITHIUM SECONDARY BATTERY, AND METHOD FOR MANUFACTURING ALL-SOLID LITHIUM SECONDARY BATTERY - A sulfide-based lithium-ion-conducting solid electrolyte glass is formed from sulfide-based lithium-ion-conducting solid electrolyte, and α-alumina. | 06-04-2009 |
