Patent application number | Description | Published |
20110095299 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING DISPLAY DEVICE - Disclosed herein is a display device, including: a substrate; a circuit part configured to include a drive element formed over the substrate; a planarization insulating layer configured to be formed on the circuit part; an electrically-conductive layer configured to be formed on the planarization insulating layer and include a plurality of first electrodes and an auxiliary interconnect; an aperture-defining insulating layer configured to insulate the plurality of first electrodes from each other and have an aperture through which part of the first electrode is exposed; a plurality of light emitting elements configured to be formed by stacking the first electrode, an organic layer including a light emitting layer, and a second electrode in that order; and a separator configured to be formed by removing the planarization insulating layer at a position surrounding a display area in which the plurality of light emitting elements connected to the drive element are disposed. | 04-28-2011 |
20110271746 | MICROPARTICLE SORTING APPARATUS, MICROCHIP AND MICROCHIP MODULE - Disclosed herein is a microchip including a substrate and a sample flow path within the substrate. The sample flow path includes a changing flow path and a microtube connected to the changing flow path. The changing flow path is configured to change a cross sectional shape of the sample flow path from a quadrangular shape at a first end to a circular shape at a second end. The microtube is connected to the second end of the changing flow path and is disposed within the substrate. | 11-10-2011 |
20120244775 | METHOD FOR MANUFACTURING DISPLAY DEVICE - A method for manufacturing a display device is provided. The method includes forming a circuit part; forming a planarization insulating layer on the circuit part; forming a separator in an area outside a display area in which a plurality of light emitting elements are formed by removing the planarization insulating layer at a position surrounding the display area; forming an electrically-conductive layer including a plurality of first electrodes and an auxiliary interconnect on the planarization insulating layer; forming an aperture-defining insulating layer that insulates the first electrodes from each other and has an aperture through which part of the first electrode is exposed; and forming a plurality of light emitting elements by stacking the first electrode, an organic layer, and a second electrode common to the plurality of light emitting elements. | 09-27-2012 |
20130146855 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING DISPLAY DEVICE - Disclosed herein is a display device, including: a substrate; a circuit part configured to include a drive element; a planarization insulating layer; an electrically-conductive layer including a plurality of first electrodes and an auxiliary interconnect; an aperture-defining insulating layer configured to insulate the plurality of first electrodes from each other and have an aperture through which part of the first electrode is exposed; a plurality of light emitting elements; and a separator configured to be formed by removing the planarization insulating layer at a position between a display area, in which the plurality of light emitting elements connected to the drive element are disposed, and a peripheral area which is surrounding the display area. A method of manufacturing a display device is also provided. | 06-13-2013 |
20130256136 | MICROPARTICLE SORTING APPARATUS AND DELAY TIME DETERMINATION METHOD - A microparticle sorting apparatus includes a detection unit which detects microparticles flowing through a flow path; an imaging device which images a droplet containing the microparticles which is discharged from an orifice provided on an edge portion of the flow path; a charge unit which applies a charge to the droplets; and a control unit which determines a delay time as from a time that the microparticles are detected by the detection unit to the time at which a number of bright spots in a standard region, which is set beforehand, of image information imaged by the imaging device reaches the maximum, making it possible for the charge unit to apply a charge to the microparticles once the delay time has lapsed after the microparticles are detected by the detection unit. | 10-03-2013 |
20130258075 | MICRO-PARTICLE SORTING APPARATUS AND METHOD OF DETERMINING A TRAJECTORY OF AN EJECTED STREAM CARRYING MICRO-PARTICLES - A flow cytometer includes apparatus for evaluating a trajectory of an ejected stream that carries micro-particles. The stream may be ejected from a micro-orifice of a micro-fluidic chip. The apparatus includes an imaging device and at least one processor configured to evaluate a trajectory of the ejected stream in at least two directions, e.g., a focusing direction and a direction transverse to the focusing direction. Based upon a detected trajectory, the system may execute an alarm function if the trajectory indicates an abnormal condition, or may move sample collection containers to accommodate for measured deviations in the trajectory of the ejected stream. | 10-03-2013 |
20140144817 | MICROPARTICLE SORTING DEVICE AND METHOD FOR CONTROLLING POSITION IN MICROPARTICLE SORTING DEVICE - A microparticle sorting device that automatically and accurately adjusts the positions of a fluid stream and a collection container is provided. | 05-29-2014 |
20150285726 | MICROPARTICLE FRACTIONATING APPARATUS AND METHOD OF FRACTIONATING MICROPARTICLE - Described are microparticle fractionating apparatus and methods of fractionating microparticles. Multiple electrodes may be used to charge droplets when separating and collecting microparticles based on a result analyzed by an optical methodologies. A first electrode may be used to charge a sample fluid, and a second electrode used to apply additional charge near a droplet break-off point. | 10-08-2015 |
Patent application number | Description | Published |
20140138295 | HALOGEN ADSORBENT, TANK FOR WATER TREATMENT, AND WATER TREATMENT SYSTEM - A halogen adsorbent of an embodiment includes: a halogen adsorbent including a support, a chelate ligand bonded to the support, and a metal ion coordinated on the chelate ligand. The chelate ligand has a functional group represented by —NR | 05-22-2014 |
20140138296 | IODINE ADSORBENT, TANK FOR WATER TREATMENT, AND IODIDE COMPOUND TREATMENT SYSTEM - An iodine adsorbent of an embodiment includes: an iodine adsorbent including a carrier, an organic group binding to the carrier, and silver. The organic group has a functional group represented by S | 05-22-2014 |
20140374328 | ADSORBENT, METHOD FOR PRODUCING ADSORBENT, AND WATER TREATMENT SYSTEM - An adsorbent includes an inorganic porous material and a ligand provided on a surface of the inorganic porous material and having a bidentate nitrogen-containing chelating functional group. The adsorbent has an infrared absorption spectrum showing a peak derived from the ligand. The peak is observed near a wavenumber of from 1,375 cm | 12-25-2014 |
Patent application number | Description | Published |
20120149224 | Detection Switch Structure And Connector Having The Same - A detection switch for detecting when a card is inserted in to a connector. The detection switch includes a housing, a shell, a card receiving passageway, and a detection switch. The shell is disposed on and covers the housing. The card receiving passageway is arranged between the housing and the shell. The detection switch detects when the card is inserted into the card receiving passageway and disposed along a side of the card connector. The detection switch includes a fixed contact secured to the housing, and a movable contact extending from the shell and configured to (1) contact the fixed contact when the card is not inserted in the card receiving passageway and (2) release from contact with the fixed contact when the card is inserted into the card receiving passageway. | 06-14-2012 |
20120238114 | Card Connector - A card connector for receiving a card that is small and includes a card guide for guiding the card that will not deteriorate, even if the card is pulled out of or inserted into a card receiving space at a large tilt angle with respect to the card receiving space. The card connector having a housing, a plurality of contacts, a shell, and the card guide. The plurality of contacts arranged along the housing, while the shell covers the housing and provides a card receiving space between the housing and the shell. The card guide extends extending obliquely into the card receiving space from a top wall of the shell and is inclined at an acute angle with respect to the top wall. | 09-20-2012 |
20150072549 | Card Connector - A card connector is disclosed having a housing. An eject lever extends transversely to a card inserting direction, and has a first end, a second end, and a central portion pivotally mounted to the housing to pivot when a card is inserted into the card connector or ejected therefrom. A slider extends along the inserting direction and is in contact with the first end of the eject lever. The slider is pushed in the ejection direction by the eject lever when a card is inserted and pushes the first end of the eject lever in the inserting direction to pivot the second end of the eject lever in the ejecting direction to eject the card. A friction member is in direct contact with the eject lever throughout the pivotable range of the eject lever. | 03-12-2015 |
Patent application number | Description | Published |
20110226337 | THIN-FILM SOLAR BATTERY AND METHOD FOR PRODUCING THE SAME - To provide a thin-film solar battery including a substrate, a first electrode, a photoelectric conversion layer and a second electrode, the first electrode, the photoelectric conversion layer and the second electrode being placed over the substrate, wherein the photoelectric conversion layer has a laminated layer structure which includes at least a p-type layer and an n-type layer, and wherein the n-type layer is formed of a compound containing elements of Group 13, Group 16 and at least one of Groups 2, 7 and 12, the Group 13 includes at least indium, and the Group 16 includes at least sulfur. | 09-22-2011 |
20130250394 | ELECTROCHROMIC DISPLAY DEVICE AND A METHOD FOR MANUFACTURING AN ELECTROCHROMIC DISPLAY DEVICE - Disclosed is an electrochromic display device including a display substrate, a display electrode provided on the display substrate, a first electrochromic layer provided on the display electrode, an intermediate display electrode provided above the first electrochromic layer separately from the first electrochromic layer, a second electrochromic layer provided on and contacting the intermediate display electrode, an opposed substrate, an opposed electrode provided on the opposed substrate, and an electrolyte solution provided between a surface of the display substrate on which the display electrode is formed and a surface of the opposed substrate on which the opposed electrode is formed, wherein the intermediate display electrode contains a rod-shaped, whisker-shaped, or long-fiber-shaped electrically conductive fine particle, and at least a portion of a space in the electrically conductive fine particle is filled with a material forming the second electrochromic layer. | 09-26-2013 |
20130258439 | METHOD FOR MANUFACTURING AN ELECTROCHROMIC DISPLAY DEVICE AND AN ELECTROCHROMIC DISPLAY DEVICE - Disclosed is a method for manufacturing an electrochromic display device, including a step of applying and attaching a fine particle with a predetermined particle diameter to a display substrate, a step of film-forming a transparent electrically conductive film after the fine particle is applied thereto, a step of removing the fine particle to remove a transparent electrically conductive film attached to a surface of the fine particle and to form a display electrode having a fine through-hole at a position at which the fine particle has been attached thereto, and a step of forming an electrochromic layer on the display electrode. | 10-03-2013 |
20130335802 | ELECTROCHROMIC DISPLAY DEVICE - An electrochromic display device includes an electrochromic display element including a display electrode, an electrochromic layer provided on the display electrode, an opposing electrode facing the display electrode, and an electrolyte layer sandwiched between the display electrode and the opposing electrode. The electrochromic display device further includes a switching element, and a electric storage element. The display electrode is connected with the opposing electrode by a power source or the electric storage element via the switching element, and when performing driving, part of electric charges, which are stored in the electrochromic display element, are applied for charging the electric storage element, or electric charges in the electric storage element that has been charged are used for driving the electrochromic display element. | 12-19-2013 |
20140078569 | ELECTRO-CHROMIC DISPLAY ELEMENT, DISPLAY APPARATUS, AND DRIVING METHOD - An electro-chromic display element, and a display apparatus and a driving method using the same are provided. | 03-20-2014 |
20140268284 | ELECTROCHROMIC DISPLAY ELEMENT AND DISPLAY DEVICE - Disclosed is an electrochromic display element, including a display substrate, an opposed substrate that is opposed to the display substrate, an opposed electrode being formed at a display-substrate-opposed side of the opposed substrate, a first display electrode and a first electrochromic layer being laminated at an opposed-substrate-opposed side of the display substrate, a single porous film being formed between the display substrate and the opposed substrate, a second display electrode and a second electrochromic layer being laminated at a display-substrate-opposed side of the porous film, a third display electrode and a third electrochromic layer being laminated at an opposed-substrate-opposed side of the porous film, and an electrolyte being present between the display substrate and the opposed substrate. | 09-18-2014 |
20150198857 | ELECTROCHROMIC DEVICE AND PRODUCTION METHOD THEREOF - An electrochromic device, which contains: one support; a first electrode layer formed on the support; a second electrode layer provided to face the first electrode layer; an electrochromic layer provided to be in contact with the first electrode layer or the second electrode layer; a solid electrolyte layer containing inorganic particles, which is filled between the first electrode layer and the second electrode layer, and is provided to be in contact with the electrochromic layer; and a protective layer provided on the second electrode layer. | 07-16-2015 |
20150274761 | ELECTROCHROMIC COMPOUND, ELECTROCHROMIC COMPOSITION, AND DISPLAY ELEMENT - To provide an electrochromic compound, represented by the following general formula (I): General Formula (I) where X | 10-01-2015 |
20150331295 | ELECTROCHROMIC DISPLAY ELEMENT, DISPLAY DEVICE, INFORMATION SYSTEM, AND ELECTROCHROMIC DIMMING LENS - To provide an electrochromic display element, which contains: a display substrate; a display electrode; an electrochromic layer provided in contact with the display electrode; a counter substrate provided to face the display substrate; a counter electrode; a charge retention layer provided in contact with the counter electrode; and an electrolyte layer filling between the display substrate and the counter substrate, wherein the electrochromic layer contains titanium oxide particles, and metal hydroxide is dispersed on surfaces and in inner parts of the titanium oxide particles. | 11-19-2015 |
Patent application number | Description | Published |
20120069638 | SEMICONDUCTOR DEVICE - A semiconductor device which it can accommodate variations in a write current threshold in each memory cell and can secure a write margin is provided. An MRAM device includes an MTJ memory cell arranged in a matrix, plural bit lines each arranged corresponding to a memory cell column, plural digit lines each arranged corresponding to a memory cell row, and a write current adjusting unit which adjusts a current amount of a write current to be flowed through a bit line and/or a digit line, in order to perform a data write to each MTJ memory cell normally. The write current adjusting unit divides the plural bit lines and/or the plural digit lines into units of at least one write current line as division units, and includes plural write current adjusting circuits which adjust the current amount of write current in each of the division units. | 03-22-2012 |
20120075921 | SEMICONDUCTOR DEVICE - A semiconductor device using a segment writing method capable of achieving a normal write operation is provided. The first DL driver and the second DL driver each cause a magnetizing current to flow through a digit line of a selected block. A BL driver causes a write current to flow in a direction corresponding to the logic of a data signal to all bit lines in a selected segment, and writes the data signal to a memory cell of the selected block. A segment decoder, when the address of one segment has been input from the outside, selects one segment corresponding to the address and couples the same to the selected first DL driver, and the segment decoder, when the addresses of two or more segments have been input from the outside, selects two or more segments corresponding to the addresses and couples the selected two or more segments to the first DL driver and the second DL driver, respectively. | 03-29-2012 |