Patent application number | Description | Published |
20100078322 | BIOSENSOR - It is an object of the present invention to provide an excellent biosensor which can perform supply of a sample solution accurately and easily. A biosensor which has a capillary ( | 04-01-2010 |
20110036713 | BIOSENSOR - A biosensor can supply a sample solution accurately and easily, and includes a capillary for collecting a sample solution and analyzes a specific substance in the sample solution, an air hole, and at least two supply ports, i.e., a sample supply port and an auxiliary sample supply port, so that supply of the sample solution can be performed from either of the supply ports. Even when the sample supply port is closed up with a fingertip or the like and supply of the sample solution is stopped, the sample solution can be quickly supplied from the other auxiliary sample supply port. | 02-17-2011 |
20140037505 | BIOSENSOR AND MEASURING DEVICE USING SAME - Electrodes (A, B) are provided in at least one of plate-like members corresponding to an inner side direction of supply path from an opening of supply path. Electrode (C) of a biological sample is provided in the inner side direction from electrodes (A, B) Reagent part is provided so as to cover electrodes (A, B) and electrode (C). Inflow restricting hole of a sample liquid is provided in at least one of plate-like members corresponding to the portions on both sides of supply path closer to the opening side than the electrode. | 02-06-2014 |
20140102895 | SENSOR AND SENSOR SYSTEM EQUIPPED WITH SAME - This sensor has a diverter, such as a convex portion ( | 04-17-2014 |
20140174042 | EASY-OPEN PACKAGING POUCH AND METHOD FOR OPENING SAME - An easy open packaging pouch, including a packaging film, with a bonded peripheral edge section that has been formed by superimposing the packaging film such that two bonding layers are facing one another such that the peripheral edge of the packaging film is bonded. The package is designed to tear open from a notch formed in the peripheral edge, and a content is placed such that a tear starting from the starting point will intersect the content during opening. Opening includes tearing along a tear line that advances diagonally, with respect to the content, from the notch. Once the tear reaches the content, the tear diverges in two directions; one continuing in a substantially unchanged direction, and the other inflecting along the content. Opening will expose an end portion of the content. | 06-26-2014 |
20140360900 | PACKAGE-TYPE CARRIER AND METHOD FOR UNWRAPPING SAME - A package-type carrier, wherein a packaged object that is a biosensor can be easily taken out of the package-type carrier and attached to a measuring device without touching the packaged object. A package-type carrier has an unsealed portion outside a sealed portion and near a connection electrode of a biosensor, and has, at the end of or near the unsealed portion, a leading end processed portion such that a space is provided in a portion between an upper cover and a lower cover of the package-type carrier. | 12-11-2014 |
Patent application number | Description | Published |
20100316950 | COMPOSITION FOR FORMING BASE FILM FOR LITHOGRAPHY AND METHOD FOR FORMING MULTILAYER RESIST PATTERN - A composition for forming an underlayer film for lithography for imparting excellent optical characteristics and etching resistance to an underlayer film for lithography, an underlayer film being formed of the composition and having a high refractive index (n) and a low extinction coefficient (k), being transparent, having high etching resistance, containing a significantly small amount of a sublimable component, and a method for forming a pattern using the underlayer film are provided. The composition for forming an underlayer film contains a naphthalene formaldehyde polymer having a specific unit obtained by reacting naphthalene and/or alkylnaphthalene with formaldehyde, and an organic solvent. | 12-16-2010 |
20130280655 | AROMATIC HYDROCARBON RESIN, UNDERLAYER FILM FORMING COMPOSITION FOR LITHOGRAPHY, AND METHOD FOR FORMING MULTILAYER RESIST PATTERN - Provided is an aromatic hydrocarbon resin with a high carbon concentration and a low oxygen concentration that can be used as a coating agent or a resist resin for semiconductors, as well as a composition for forming an underlayer film for photolithography with excellent etching resistance as an underlayer film for a multilayer resist process, an underlayer film formed from the composition, and a method for forming a pattern using the underlayer film. | 10-24-2013 |
20150018499 | NAPHTHALENE FORMALDEHYDE RESIN, DEACETALIZED NAPHTHALENE FORMALDEHYDE RESIN, AND MODIFIED NAPHTHALENE FORMALDEHYDE RESIN - Provided are a naphthalene formaldehyde resin obtained by reacting a compound (A) represented by formula (1) and formaldehyde (B) in a molar ratio, (A):(B), of 1:1 to 1:20 in the presence of an acidic catalyst, and a deacetalized naphthalene formaldehyde resin and a modified naphthalene formaldehyde resin derived therefrom. | 01-15-2015 |
Patent application number | Description | Published |
20140186776 | PHENOLIC RESIN AND MATERIAL FOR FORMING UNDERLAYER FILM FOR LITHOGRAPHY - There is provided a novel phenolic resin which can be used as a coating agent or a resist resin for a semiconductor, which has a high carbon concentration and a low oxygen concentration in the resin, which has a relatively high heat resistance and also a relatively high solvent solubility, and which can be applied to a wet process. There are also provided a material useful for forming a novel photoresist underlayer film which has a relatively high solvent solubility, which can be applied to a wet process, and which is excellent in etching resistance as an underlayer film for a multilayer resist, an underlayer film formed using the same, and a pattern forming method using the same. A resin of the present invention is obtained by reacting a compound having a specified structure and an aldehyde having a specified structure in the presence of an acidic catalyst. In addition, a material for forming an underlayer film for lithography of the present invention includes at least the resin and an organic solvent. | 07-03-2014 |
20140246400 | RESIN HAVING FLUORENE STRUCTURE AND MATERIAL FOR FORMING UNDERLAYER FILM FOR LITHOGRAPHY - A resin having a fluorene structure, a relatively high carbon concentration in the resin, a relatively high heat resistance and a relatively high solvent solubility has a structure represented by | 09-04-2014 |
20150037736 | ACIDIC TREATMENT-SUBJECTED MONOALKYLNAPHTHALENE FORMALDEHYDE RESIN - Provided are a novel resin and a precursor thereof that are excellent in thermal decomposability and solubility in a solvent. The resin is obtained by subjecting, to an acidic treatment, a monoalkylnaphthalene formaldehyde resin that is obtained by reacting a compound represented by the following formula (1), wherein R | 02-05-2015 |
20150090691 | MATERIAL FOR FORMING UNDERLAYER FILM LITHOGRAPHY, UNDERLAYER FILM FOR LITHOGRAPHY AND PATTERN FORMING METHOD - Material for forming an underlayer film for lithography, which has a high carbon concentration, a low oxygen concentration, a relatively high heat resistance and also a relatively high solvent solubility, and which can be applied to a wet process is disclosed. Material for forming an underlayer film for lithography contains a compound represented by general formula (1). | 04-02-2015 |
Patent application number | Description | Published |
20110009574 | MODIFIED NAPHTHALENE FORMALDEHYDE RESIN, TRICYCLODECANE SKELETON-CONTAINING NAPHTHOL COMPOUND AND ESTER COMPOUND - A modified dimethylnaphthalene formaldehyde resin is disclosed, which is excellent in heat resistance and useful for thermosetting resins which are used for an electrical insulating material, a resin for resist, a semiconductor sealing resin, an adhesive for printed wiring board, a matrix resin for electrical laminate or prepreg to be mounted in electrical instruments, electronic instruments, industrial instruments, etc., a buildup laminate material, a resin for fiber-reinforced plastic, a sealing resin for liquid crystal display panel, a paint, a variety of coating agents, an adhesive, a laminate for electrical or electronic parts, a molded article, a coating material, a sealing material and the like, the modified dimethylnaphthalene formaldehyde resin being obtained by modifying a polyfunctional dimethylnaphthalene formaldehyde resin having a constituent unit represented by the following general formula [1] in a molecule thereof with at least one member selected from the group consisting of a phenol represented by the following general formula [2], a naphthol represented by the following general formula [3] and a naphthol represented by the following general formula [4] (provided that at least any of the naphthol represented by the general formula [3] or the naphthol represented by the general formula [4] must be included). | 01-13-2011 |
20120171611 | AROMATIC HYDROCARBON RESIN AND COMPOSITION FOR FORMING UNDERLAYER FILM FOR LITHOGRAPHY - The aromatic hydrocarbon resin can be used as a coating material and a resist resin for a semiconductor, and has a high carbon concentration and a low oxygen concentration. A composition for forming an underlayer film for lithography that has excellent etching resistance as an underlayer film for a multilayer resist process, an underlayer film formed with the same, and a pattern forming method using the same are disclosed. An aromatic hydrocarbon is reacted with an aromatic aldehyde in the presence of an acidic catalyst, thereby providing an aromatic hydrocarbon resin that has a high carbon concentration of from 90 to 99.9% by mass and a low oxygen concentration of from 0 to 5% by mass. A composition for forming an underlayer film for lithography contains the resin and an organic solvent, an underlayer film is formed with the same, and a pattern forming method uses the same. | 07-05-2012 |
Patent application number | Description | Published |
20080223288 | Crystal growing apparatus - An object of the invention is to carry out the flux method with improved work efficiency while maintaining the purity of flux at high level and saving flux material cost. The sodium-purifying apparatus includes a sodium-holding-and-management apparatus for maintaining purified sodium (Na) in a liquid state. Liquid sodium is supplied into a sodium-holding-and-management apparatus through a liquid-sodium supply piping maintained at 100° C. to 200° C. The sodium-holding-and-management apparatus further has an argon-gas-purifying apparatus for controlling the condition of argon (Ar) gas that fills the internal space thereof. Thus, by opening and closing a faucet at desired timing, purified liquid sodium (Na) supplied from the sodium-purifying apparatus can be introduced into a crucible as appropriate via the liquid-sodium supply piping, the sodium-holding-and-management apparatus, and the piping. | 09-18-2008 |
20090000538 | SINGLE CRYSTAL GROWING METHOD - In a method of growing a single crystal by melting a raw material within a vessel under a nitrogenous and non-oxidizing atmosphere, the vessel is oscillated and the melted raw material is contacted with an agitation medium made of a solid unreactive with the melted raw material. | 01-01-2009 |
20090013924 | PROCESS AND APPARATUS FOR PRODUCING NITRIDE SINGLE CRYSTAL - A nitride single crystal is produced using a growth solution | 01-15-2009 |
20100247418 | Method for producing group III nitride semiconductor - An object of the present invention is to effectively add Ge in the production of GaN through the Na flux method. In a crucible, a seed crystal substrate is placed such that one end of the substrate remains on the support base, whereby the seed crystal substrate remains tilted with respect to the bottom surface of the crucible, and gallium solid and germanium solid are placed in the space between the seed crystal substrate and the bottom surface of the crucible. Then, sodium solid is placed on the seed crystal substrate. Through employment of this arrangement, when a GaN crystal is grown on the seed crystal substrate through the Na flux method, germanium is dissolved in molten gallium before formation of a sodium-germanium alloy. Thus, the GaN crystal can be effectively doped with Ge. | 09-30-2010 |
20110259261 | REACTION VESSEL FOR GROWING SINGLE CRYSTAL AND METHOD FOR GROWING SINGLE CRYSTAL - It is provided a method of growing a single crystal by flux process from a melt containing sodium, in that a flux is contained in a reaction vessel made of yttrium-aluminum garnet. Compared with the case that an alumina or yttria vessel is used, it can be successfully obtained a single crystal whose incorporation amounts of oxygen and silicon can be considerably reduced, residual carrier density can be lowered, and electron mobility and specific resistance can be improved. | 10-27-2011 |
20120137961 | METHOD FOR GROWING SINGLE CRYSTAL OF GROUP III METAL NITRIDE AND REACTION VESSEL FOR USE IN SAME - Materials of a nitride single crystal of a metal belonging to III group and a flux are contained in a crucible, which is contained in a reaction container, the reaction container is contained in an outer container, the outer container is contained in a pressure container, and nitrogen-containing atmosphere is supplied into the outer container and melt is generated in the crucible to grow a nitride single crystal of a metal belonging to III group. The reaction container includes a main body containing the crucible and a lid. The main body includes a side wall having a fitting face and a groove opening at the fitting face and a bottom wall. The lid has an upper plate part including a contact face for the fitting face of the main body and a flange part extending from the upper plate part and surrounding an outer side of said side wall. | 06-07-2012 |
20140014028 | Method for Producing Gallium Nitride Layer and Seed Crystal Substrate Used in Same - A gallium nitride layer is produced using a seed crystal substrate by flux method. The seed crystal substrate | 01-16-2014 |
20140026809 | Process for Producing Group 13 Metal Nitride, and Seed Crystal Substrate for Use in Same - A seed crystal substrate | 01-30-2014 |
20150303066 | Substrates Including Gallium Nitride Layers and a Method of Producing the Same - In a substrate having a gallium nitride layer, surface damage after surface treatment of the gallium nitride layer is reduced and quality of a functional device formed thereon is improved. A substrate | 10-22-2015 |
Patent application number | Description | Published |
20100166820 | COPOLYMERS HAVING POLYISOBUTYLENE AND BIODEGRADABLE POLYMER SEGMENTS - The present invention pertains to copolymers having one or more polyisobutylene segments and one or more biodegradable polymer segments, to methods of making such copolymers, to medical articles that contain such copolymers, and to methods of making such medical articles. According to certain aspects of the invention, copolymers are provided, which comprise a plurality of polyisobutylene segments and a plurality of biodegradable polymer segments. According to certain aspects of the invention, copolymers are provided, which comprise urethane linkages, urea linkages, amide linkages, ester linkages, anhydride linkages, carbonate linkages, linkages commonly described as “click” chemistry linkages, and combinations of two or more types of such linkages. | 07-01-2010 |
20150203622 | Copolymers Having Polyisobutylene And Biodegradable Polymer Segments - The present invention pertains to copolymers having one or more polyisobutylene segments and one or more biodegradable polymer segments, to methods of making such copolymers, to medical articles that contain such copolymers, and to methods of making such medical articles. According to certain aspects of the invention, copolymers are provided, which comprise a plurality of polyisobutylene segments and a plurality of biodegradable polymer segments. According to certain aspects of the invention, copolymers are provided, which comprise urethane linkages, urea linkages, amide linkages, ester linkages, anhydride linkages, carbonate linkages, linkages commonly described as “click” chemistry linkages, and combinations of two or more types of such linkages. | 07-23-2015 |
Patent application number | Description | Published |
20130016627 | NETWORK RELAY NODE DEVICE, NETWORK RELAY METHOD, AND RECORDING MEDIUM - A network relay node device for relaying communication between a first network and a second network having a protocol different from a protocol of the first network through a switch, the network relay node device includes an identical segment information generation control unit that generates identical segment information for identification of another relay node device belonging to a same segment as a local device in the second network and a loop suppression control unit that suppresses a loop of a communication including the switch by broadcasting a received broadcast frame only to a connection port of the first network if the identical segment information is detected in identification source node information acquired from a header of the broadcast frame when the broadcast frame is received from a connection port of the first network. | 01-17-2013 |
20140133292 | COMMUNICATION METHOD AND A NODE DEVICE - A first node device transmits a first path information frame including first path information that associates a destination node device with a first forwarding destination to which the first node device forwards a data frame destined for the destination node device. A second node device other than the first node device receives the first path information frame. The second node device determines whether a forwarding path includes a loop. The forwarding path is a path from the second node device to the destination node device via the first node device and the first forwarding destination. The second node device stores the first path information upon determining that the forwarding path does not include a loop. The second node device forwards a data frame destined for the destination node device to the first node device on the basis of the first path information. | 05-15-2014 |
20140269344 | NODE DEVICE, COMMUNICATION METHOD, STORAGE MEDIUM, AND NETWORK SYSTEM - Anode device includes a transmitter and a processor. The transmitter transmits an inspection frame used in inspecting a status of a route from a source node device to a destination node device. The processor generates a first inspection frame and selects a first node device to which the transmitter transmits the first inspection frame from among candidates for a node device to which a frame addressed to the destination node device is to be forwarded. The processor judges whether a transmission of the first inspection frame has been successfully performed. When the transmission of the first inspection frame has failed, the processor generates a second inspection frame which records a failure in a communication with the first node device. The processor selects a second node device to which the transmitter transmits the second inspection frame from among the candidates. | 09-18-2014 |
20150049759 | NODE APPARATUS, DATA RELAY METHOD AND COMPUTER-READABLE RECORDING MEDIUM - A node apparatus includes a receiving unit receiving a data frame from one of adjacent nodes apparatuses; a storing unit storing an identification information management table in which frame identification information with which the data frame may be uniquely identified, and overlapped data identification information; a processor which performs a process including: judging whether or not a final destination of the received data frame is the node apparatus itself; judging whether or not a registration that matches the frame identification information of the received data frame exists in the identification information management table; judging whether or not the overlapped data identification information of the received data frame and the overlapped data identification information corresponding to the registration match; and discarding the received data frame; and performing a retransmission of the received data frame to another adjacent node that has not been a transmission destination of the data frame. | 02-19-2015 |