Patent application number | Description | Published |
20120217437 | CARBON DIOXIDE ABSORBING SOLUTION - The present invention provides a carbon dioxide absorbing solution capable of preventing production of an oxidization degradation product of alkanolamine, that is, BICINE. The carbon dioxide absorbing solution contains an alkanolamine and a sulfur amino acid represented by the formula (1) or (2). | 08-30-2012 |
20120305840 | CARBON DIOXIDE ABSORBING SOLUTION - An object of the present invention is to provide a carbon dioxide absorbing solution capable of avoiding precipitation of a product formed by the reaction with carbon dioxide. The absorbing solution is an aqueous solution characterized by containing an amino acid salt comprising at least one carboxylic acid salt connected to a heterocyclic ring including at least one nitrogen atom as the ring member atom. | 12-06-2012 |
20130330629 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY AND PRODUCTION METHOD THEREOF - According to one embodiment, there is provided a non-aqueous electrolyte secondary battery including a positive electrode, a negative electrode including a negative electrode active material layer, and a non-aqueous electrolyte. The negative electrode active material layer contains carbon dioxide and releases the carbon dioxide in the range of 0.1 ml to 5 ml per 1 g when heated at 200° C. for 1 minute. | 12-12-2013 |
20140162117 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY AND PRODUCTION METHOD THEREOF - According to the embodiment, there is provided a nonaqueous electrolyte secondary battery comprising a positive electrode; a negative electrode including a negative electrode active material layer; and a nonaqueous electrolyte. The negative electrode active material layer contains carbon dioxide and releases the carbon dioxide in the range of 0.01 ml to 3 ml per 1 g when heated at 400° C. for 1 minute. The nonaqueous electrolyte contains carbon dioxide of 50 ml/L to 1000 ml/L. | 06-12-2014 |
Patent application number | Description | Published |
20120258063 | PREVENTING OR AMELIORATING AGENT FOR PIGMENTATION - An object is to provide an external preparation for skin preferably usable to prevent or ameliorate pigmentation. The object is achieved by providing a preventing or ameliorating agent for pigmentation, consisting of a compound represented by the following general formula (1), an isomer thereof, and/or a pharmacologically acceptable salt thereof, and an external preparation for skin containing the same as a component: | 10-11-2012 |
20120282203 | PROPHYLACTIC OR AMELIORATING AGENT FOR PIGMENTATION - An object of the present invention is to provide a prophylactic or ameliorating agent for pigmentation having a novel scaffold and an external preparation for skin containing the same as a component. The object is achieved by providing a prophylactic or ameliorating agent for pigmentation comprising a compound represented by the following general formula (1), an isomer thereof, and/or a pharmacologically acceptable salt thereof and an external preparation for skin containing the same as a component: | 11-08-2012 |
20140322150 | PREVENTING OR AMELIORATING AGENT FOR PIGMENTATION - An object is to provide an external preparation for skin preferably usable to prevent or ameliorate pigmentation. The object is achieved by providing a preventing or ameliorating agent for pigmentation, consisting of a compound represented by the following general formula (1), an isomer thereof, and/or a pharmacologically acceptable salt thereof, and an external preparation for skin containing the same as a component: | 10-30-2014 |
Patent application number | Description | Published |
20110075689 | TUNING METHOD OF EXTERNAL CAVITY LASER DIODE, VARIABLE WAVELENGTH LASER MODULE, AND PROGRAM OF EXTERNAL CAVITY LASER DIODE TUNING - A tuning methods of an External Cavity Laser Diode (ECLD), comprises steps of: (1) providing a laser light to a grating so as to tilt the grating to an optical axis of a collimated laser light, (2) adjusting the orientation of the grating relative to the collimated laser light, (3) monitoring singleness of longitudinal mode and optical power of a light emitted from the grating, (4) calculating an orientation of the grating to exhibit intended optical power at which the singleness of longitudinal mode shows at least predetermined value, (5) adjusting the grating orientation or the optical axis of the collimated laser light to the calculated grating orientation. | 03-31-2011 |
20140286330 | Node System and Supervisory Node - A node system includes a first node, a second node, and a supervisory node which transmit frames while increasing or decreasing the cycle microtick count, and determines reduced cycle microtick counts by subtracting or adding a rate correction limit value from or to the cycle microtick count of the supervisory node when reception of the first frame transmitted by the first node stop and the cycle microtick count of the supervisory node when reception of the first and second frames stop. | 09-25-2014 |
20140313715 | LIGHT SOURCE APPARATUS - A light source apparatus of the present invention has a plurality of semiconductor laser devices and a holding member; the semiconductor laser device includes: a semiconductor laser element; a placing body on which the semiconductor laser element is mounted; a substrate on which the placing body is biased to one side thereof; and a pair of terminals electrically connected to the semiconductor laser element, biased to the other side of the substrate and protruding from the substrate, and the holding member includes: holes aligned in at least a pair of rows; a thin-walled section on which the holes are arranged, the thin-walled section being formed by providing at least a pair of depressions on the other side; and a thick-walled section provided adjacent to the thin-walled section. The semiconductor laser device is mounted on one side of the holding member and the placing body of the semiconductor laser device is disposed on the thick-walled section, and the pair of terminals are exposed through the holes from the other side of the holding member. | 10-23-2014 |
Patent application number | Description | Published |
20080206482 | DROPLET JETTING APPLICATOR AND METHOD OF MANUFACTURING COATED BODY - The droplet jetting applicator includes an irradiator and a droplet jetting head. The irradiator is configured to irradiate, to a water-repellent film formed on a surface of an application target, a light beam for removing the water-repellent film. The droplet jetting head is configured to jet a droplet to each of multiple hydrophilic regions of the surface of the application target, each of the hydrophilic regions being exposed to the outside in a dot shape by removing the water-repellent film. | 08-28-2008 |
20090201352 | INK JET SYSTEM AND METHOD FOR REMOVING AIR BUBBLES INSIDE OF AN INK JET NOZZLE - An ink jet system according to the present invention is provided with an air bubble removing unit including: an ink jet body having a plurality of ink supply path; a nozzle plate connected to an end of the ink jet body and having a plurality of spaced nozzle holes therein; and a cap configured to cover the nozzle holes formed in the nozzle plate wherein a first ink channel space is formed continuous to the nozzle holes and the plurality of ink supply path, and a second ink channel space is formed between a recess of the cap and a surface of the nozzle plate, so that the second ink channel space and the first ink channel space are continuous through the nozzle holes. | 08-13-2009 |
20100072423 | METHOD OF PRODUCING A LOW-MOLECULAR LUMINOUS MATERIAL DISPERSANT,AN APPARATUS FOR PRODUCING A LOW-MOLECULAR LUMINOUS MATERIAL DISPERSANT AND A LOW-MOLECULAR LUMINOUS MATERIAL DISPERSANT - A method of producing a low-molecular luminous material dispersant having: inserting a coat agent in gas phase and an inner gas into a vacuum atmosphere, wherein the coat agent has a strong affinity for a solvent when the coat agent is in liquid phase; heating and vaporizing a low-molecular luminous material in the vacuum atmosphere so as to obtain a mix gas comprising the low-molecular luminous material and inner gas; cooling the mix gas so as to obtain a coat agent in liquid phase; and recovering the coat agent in liquid phase and adding the coat agent in liquid phase into the solvent so as to obtain the low-molecular luminous material dispersant. | 03-25-2010 |
20110204490 | FILM FORMING APPARATUS, FILM FORMING METHOD, AND SEMICONDUCTOR DEVICE - According one embodiment, a film forming apparatus includes a stage, a coating section, a vapor supply section, a blower section, and a controller. On the stage, an coating target is placed. The coating section applies a material to a predetermined region on the coating target placed on the stage to form a coating film. The vapor supply section generates solvent vapor capable of dissolving the coating film. The blower section blows the solvent vapor generated by the vapor supply section onto the coating film on the coating target placed on the stage. The controller controls an amount of the solvent vapor to be blown by the blower section so that: the coating film is dissolved; viscosity in a part of the coating film on a surface layer side is lower than that in a part thereof on the coating target side; and the viscosity in the part on the surface layer side and the viscosity of the coating target side take such values that prevent the coating film on the coating target from spreading. | 08-25-2011 |
20110308612 | THIN FILM SOLAR CELL AND METHOD FOR MANUFACTURING THE SAME - A thin film solar cell includes: a thin film-like substrate; an electrode arranged on the substrate; a photoelectric conversion layer stacked on the electrode; a transparent conductive film arranged on the photoelectric conversion layer; diffraction recessed portions provided periodically on a photoelectric conversion layer-side surface of the electrode; and reflection preventing recessed portions provided periodically on a photoelectric conversion layer-side surface of the transparent conductive film. | 12-22-2011 |
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20100220366 | IMAGE READING DEVICE AND IMAGE PROCESSING METHOD UTILIZING THE SAME - An image processing apparatus provided with a reader for reading an original image, a connection unit for connection with a network to which plural computers are connected, and a transfer unit for transferring the image data, read by the reader, to a computer through the connection unit, the apparatus comprising a specifying unit for specifying a desired one among the computers connected through the connection unit, and a designation unit for designating image reading by the reader, wherein the transfer unit is adapted to transfer the image data, read by the reader in response to the designation by the designation unit, to a computer specified by the specifying unit. | 09-02-2010 |
20130201530 | IMAGE READING DEVICE AND IMAGE PROCESSING METHOD UTILIZING THE SAME - There is disclosed an image processing apparatus provided with a reader for reading an original image, a connection unit for connection with a network to which plural computers are connected, and a transfer units for transferring the image data, read by the reader, to a computer through the connection unit, the apparatus comprises a specifying unit for specifying desired one among the computers connected through the connection unit, and a designation unit for designating image reading by the reader, wherein the transfer unit is adapted to transfer the image data, read by the reader in response to the designation by the designation unit, to a computer specified by the specifying unit. | 08-08-2013 |
Patent application number | Description | Published |
20150046634 | MEMORY SYSTEM AND INFORMATION PROCESSING DEVICE - According to embodiments a memory system is connectable to a host which includes a host controller and a host memory including a first memory area and a second memory area. The memory system includes an interface unit, a non-volatile memory, and a controller unit. The interface unit receives a read command and a write command. The controller unit writes write-data to the non-volatile memory according to the write command. The controller unit determines whether read-data requested by the read command is in the first memory area. If the read-data is in the first memory area, the controller unit causes the host controller to copy the read-data from the first memory area to the second memory area. If the read-data is not in the first memory area, the controller unit reads the read-data from the non-volatile memory and causes the host controller to store the read-data in the second memory area. | 02-12-2015 |
20150074329 | INFORMATION PROCESSING DEVICE - A device of one embodiment includes a host device including a first memory unit and host controller, and memory device. The host controller controls input/output accesses to the first memory unit. The memory device includes a nonvolatile semiconductor memory, second memory unit, protection circuit, and device controller. The second memory unit temporarily stores data to be transferred between the first memory unit and the nonvolatile semiconductor memory. The protection circuit protects data to be transferred from the second memory unit to the first memory unit by converting the data into an incomprehensible format. The device controller switches according to a control program whether or not to protect the data by the protection circuit. | 03-12-2015 |
20150074330 | MEMORY DEVICE, INFORMATION-PROCESSING DEVICE AND INFORMATION-PROCESSING METHOD - A memory device according to an embodiment includes a non-volatile storage device, a volatile storage device that stores saved data which is saved in the host-side storage device when a first operation mode changing process is executed by the memory device, and a control unit. The control unit transmits, to the host device, a write command that is an instruction to write the saved data to the host-side storage device and the saved data, when the first operation mode changing process is executed by the memory device. | 03-12-2015 |
20150074334 | INFORMATION PROCESSING DEVICE - According to one embodiment, an information processing device is disclosed. The device includes a host device and a memory device. The host device includes a first memory portion to store first data and tag information corresponding to the first data, and a host controller to control input and output of data for the first memory portion. The memory device includes a nonvolatile semiconductor memory, and a device controller to control input and output of data for the nonvolatile semiconductor memory, and to transmit an input and output request for data to the host controller. In response to the device controller transmits an output request, the host controller reads the first data and the tag information from the first memory portion based on the output request, and outputs the first data and the tag information to the device controller. | 03-12-2015 |
20150261444 | MEMORY SYSTEM AND INFORMATION PROCESSING DEVICE - According to one embodiment, a memory system includes a first memory, an interface, and a control unit. The first memory can operate in first mode in which n (n≧2) pieces of unit data are written per word line and in second mode in which one piece of unit data is written per word line. When n pieces of unit data to be written to the first word line exist in the second memory, the control unit writes the first unit data to the first word line, using the n pieces of unit data to be written to the first word line. When receiving a flush request, the control unit writes a second unit data to a second word line, the second unit data being unit data stored in the second memory, based on the second mode. | 09-17-2015 |
Patent application number | Description | Published |
20120202309 | METHOD OF PRODUCING SEMICONDUCTOR DEVICE AND METHOD OF PRODUCING SOLID-STATE IMAGE PICKUP DEVICE - The method includes a step of forming a mask having an opening, for forming an opening in multiple insulating films, above a semiconductor substrate on which a member becoming a first insulating film, a member becoming a second insulating film being different from the member becoming the first insulating film, a member becoming a third insulating film, and a member becoming a fourth insulating film being different from the member becoming the third insulating film are stacked in this order; a first step of continuously removing the member becoming the fourth insulating film and the member becoming the third insulating film at a portion corresponding to the opening of the mask; and a second step of removing the member becoming the second insulating film, after the first step, at a portion corresponding to the opening of the mask. | 08-09-2012 |
20120202310 | SOLID-STATE IMAGE PICKUP DEVICE AND METHOD FOR MANUFACTURING SOLID-STATE IMAGE PICKUP DEVICE - A method for manufacturing a solid-state image pickup device that includes a substrate including a photoelectric conversion unit and a waveguide arranged on the substrate, the waveguide corresponding to the photoelectric conversion unit and including a core and a cladding, includes a first step and a second step, in which in the first step and the second step, a member to be formed into the core is formed in an opening in the cladding by high-density plasma-enhanced chemical vapor deposition, and in which after the first step, in the second step, the member to be formed into the core is formed by the high-density plasma-enhanced chemical vapor deposition under conditions in which the ratio of a radio-frequency power on the back face side of the substrate to a radio-frequency power on the front face side of the substrate is higher than that in the first step. | 08-09-2012 |
20150179867 | METHOD FOR MANUFACTURING PHOTOELECTRIC CONVERSION DEVICE - In a method for manufacturing a photoelectric conversion device which includes: a substrate including a photoelectric conversion element; and a light guide which includes an insulator having an opening corresponding to the photoelectric conversion element and containing silicon oxide and a member located in the opening and containing silicon nitride, the method includes: forming a first silicon nitride film which forms the member in the opening by a parallel plate type plasma CVD apparatus; and forming a second silicon nitride film which forms the member in the opening and on the first silicon nitride film by a high density plasma CVD apparatus. In the photoelectric conversion device, the first silicon nitride film has a thickness of 55 nm or more. | 06-25-2015 |