Patent application number | Description | Published |
20110057168 | 3-TERMINAL ELECTRONIC DEVICE AND 2-TERMINAL ELECTRONIC DEVICE - A 3-terminal electronic device includes: a control electrode; a first electrode and a second electrode; and an active layer that is provided between the first electrode and the second electrode and is provided to be opposed to the control electrode via an insulating layer. The active layer includes a collection of nanosheets. When it is assumed that the nanosheets have an average size L | 03-10-2011 |
20110291068 | FIELD EFFECT TRANSISTOR MANUFACTURING METHOD, FIELD EFFECT TRANSISTOR, AND SEMICONDUCTOR GRAPHENE OXIDE MANUFACTURING METHOD - A semiconductor device is provided and includes a conductive substrate, an insulating film formed on the conductive substrate, a base layer including amino groups, and a reduced graphene oxide layer formed on the base layer. | 12-01-2011 |
20120249829 | SOLID-STATE IMAGING DEVICE AND ELECTRONIC APPARATUS - A solid-state imaging device includes: a substrate; a photoelectric conversion unit that is formed on the substrate and generates signal charge in correspondence with a light amount of incident light; and a transparent electrode that is formed in an upper portion of the substrate and includes a first area formed from a nano carbon material and a second area that is brought into contact with the first area and has light transmittance higher than that of the first area. | 10-04-2012 |
20130011574 | GRAPHENE PRODUCTION METHOD AND GRAPHENE PRODUCTION APPARATUS - Provided is a graphene production method including: contacting a carbon source substance with a surface of a flexible film-forming target having electrical conductivity; and applying a current to the film-forming target and heating the film-forming target at a temperature exceeding a graphene production temperature to produce graphene from the carbon source substance on the surface of the film-forming target. | 01-10-2013 |
20130032913 | GRAPHENE STRUCTURE, PRODUCTION METHOD THEREOF, PHOTOELECTRIC CONVERSION ELEMENT, SOLAR CELL, AND IMAGE PICKUP APPARATUS - A graphene structure includes a conductive layer and a protective layer. The conductive layer is formed of graphene doped with a dopant, and the protective layer is laminated on the conductive layer and formed of a material having a higher oxidation-reduction potential than water. | 02-07-2013 |
20130040146 | GRAPHENE STRUCTURE AND RODUCTION METHOD THEREOF - A graphene structure includes a substrate and a graphene layer. The grapheme layer is laminated on the substrate, is formed of graphene doped with a dopant, and has a similar oxidation-reduction potential to that of water. | 02-14-2013 |
20130206227 | TRANSPARENT CONDUCTIVE FILM, METHOD OF PRODUCING THE SAME, PHOTOELECTRIC CONVERSION APPARATUS, AND ELECTRONIC APPARATUS - [Object] To provide a transparent conductive film that has sufficiently low sheet resistance and a sufficiently high visible light transmittance, is capable of securing high conductivity on an entire surface thereof, and has excellent corrosion resistance to an electrolyte solution, a method of producing the transparent conductive film, and a photoelectric conversion apparatus and an electronic apparatus using the transparent conductive film. | 08-15-2013 |
20130334402 | SOLID-STATE IMAGINGELEMENT, CALIBRATION METHOD OF SOLID-STATE IMAGINGELEMENT, SHUTTER DEVICE, AND ELECTRONIC APPARATUS - Disclosed herein is a solid-state imaging element including: a plurality of pixels including a photoelectric conversion section; and a nano-carbon laminated film disposed on a side of a light receiving surface of the photoelectric conversion section and formed with a plurality of nano-carbon layers, transmittance of light and a wavelength region of transmissible light changing in the nano-carbon laminated film according to a voltage applied to the nano-carbon laminated film. | 12-19-2013 |
20140017444 | TRANSPARENT CONDUCTIVE FILM, HEATER, TOUCH PANEL, SOLAR BATTERY, ORGANIC EL DEVICE, LIQUID CRYSTAL DEVICE, AND ELECTRONIC PAPER - There are provided a transparent conductive film, as well as a heater, a touch panel, a solar battery, an organic EL device, a liquid crystal device, and an electronic paper that are provided with the transparent conductive film, the transparent conductive film being capable of easing a decline in optical transmittance when graphene is laminated, and of achieving optical transmittance higher than an upper limit of optical transmittance of a single layer of graphene. The transparent conductive film includes a single-layered conductive graphene sheet. The single-layered conductive graphene sheet includes a first region and a second region, the first region being configured of graphene, and the second region being surrounded by the first region and having optical transmittance that is higher than optical transmittance of the first region. | 01-16-2014 |
20140146490 | LAMINATED STRUCTURE, METHOD OF MANUFACTURING LAMINATED STRUCTURE, AND ELECTRONIC APPARATUS - A laminated structure includes a first substrate, an adhesive, a graphene, and a second substrate. The adhesive is provided on a principal surface of the first substrate, and the adhesive has a storage elastic modulus of 7.2*104 Pa or more and 6.1*105 Pa or less at 23° C. The graphene is bonded to the adhesive, and the graphene has one or a plurality of layers. The second substrate is bonded to the graphene. | 05-29-2014 |
20150140212 | FILM-FORMING APPARATUS AND FILM-FORMING METHOD - There is provided a film-forming apparatus including a roll-to-roll mechanism and a heating unit. The roll-to-roll mechanism is configured to transport a film-forming target and includes a tensile force relaxation unit configured to relax a tensile force applied to the transported film-forming target. The heating unit is configured to heat the film-forming target transported by the roll-to-roll mechanism. | 05-21-2015 |
Patent application number | Description | Published |
20100178178 | PISTON COMPRESSOR - A compressor includes a rotary shaft, a cam, a cylinder block, pistons, a thrust bearing, a rotary valve, and an oil passage. The rotary shaft has an in-shaft passage formed therein. The cam rotates integrally with the rotary shaft. The pistons are coupled to the rotary shaft through the cam. The thrust bearing is provided between the cam and the cylinder block. The thrust bearing includes a first race in contact with the cam, a second race in contact with the cylinder block, and rolling elements retained between the first and second races to form a gap therebetween. The oil passage extends from the gap to the in-shaft passage and includes an oil retaining space formed in at least one of the cam and the cylinder block. | 07-15-2010 |
20100282070 | FIXED DISPLACEMENT PISTON COMPRESSOR - A compressor includes a rotary shaft, a swash plate, a cylinder block, plural pistons, a crank chamber, a housing, plural passages, a thrust bearing, and an anti-rotation mechanism. The crank chamber accommodates therein the swash plate, and refrigerant of suction pressure is introduced into the crank chamber. The housing is connected to the cylinder block and forms therein a suction chamber and a discharge chamber. The plural passages are provided for communication between the crank chamber and the suction chamber. The thrust bearing is provided between the swash plate and the cylinder block so as to receive thrust load from the swash plate. The thrust bearing has a thrust race located adjacent to the cylinder block. The anti-rotation mechanism is provided for preventing relative rotation of the thrust race to the cylinder block. The anti-rotation mechanism restricts the fluid flow through a specific passage of the plural passages. | 11-11-2010 |
20120237369 | CYLINDER BLOCK OF PISTON-TYPE COMPRESSOR AND METHOD FOR MANUFACTURING THE SAME - A cylinder block of a piston-type compressor includes a main cylinder block, a shaft hole formed through the main cylinder block, a plurality of cylinder bores formed in the main cylinder block around the shaft hole, a separation wall formed integrally with the main cylinder block and closing one end of the cylinder bore, a first hole formed through the separation wall and a second hole formed linearly and connecting the cylinder bore and the shaft hole. The first hole is formed so that the first hole is located on an extended line of axis Q of the second hole and the diameter of the first hole is equal to or more than that of the second hole. | 09-20-2012 |
20140017100 | PISTON COMPRESSOR - A compressor includes a rotary shaft, a cam, a cylinder block, pistons, a thrust bearing, a rotary valve, and an oil passage. The rotary shaft has an in-shaft passage formed therein. The cam rotates integrally with the rotary shaft. The pistons are coupled to the rotary shaft through the cam. The thrust bearing is provided between the cam and the cylinder block. The thrust bearing includes a first race in contact with the cam, a second race in contact with the cylinder block, and rolling elements retained between the first and second races to form a gap therebetween. The oil passage extends from the gap to the in-shaft passage and includes an oil retaining space formed in at least one of the cam and the cylinder block. | 01-16-2014 |
Patent application number | Description | Published |
20100189576 | PISTON COMPRESSOR - A compressor includes a rotary shaft, a cam, a cylinder block, pistons, a thrust bearing, a rotary valve, and an oil passage. The rotary shaft has an in-shaft passage formed therein. The in-shaft passage has an outlet open to the outer peripheral surface of the rotary shaft. The cam rotates integrally with the rotary shaft. The pistons are coupled to the rotary shaft through the cam. The thrust bearing is provided between the cam and the cylinder block. The thrust bearing includes a first race in contact with the cam, a second race in contact with the cylinder block, and rolling elements retained between the first and second races to form a gap therebetween. The oil passage is formed in the outer peripheral surface of the rotary shaft so as to extend from the gap to the outlet of the in-shaft passage. | 07-29-2010 |
20120251344 | DOUBLE-HEADED PISTON TYPE SWASH PLATE COMPRESSOR - A double-headed piston type swash plate compressor is provided with a front housing including a suction chamber, a rear housing, a cylinder block, a rotation shaft, and double-headed pistons. The cylinder block includes cylinder bores, a rotation shaft accommodation bore, a communication conduit that communicates the suction chamber with the rotation shaft accommodation bore, and suction passages communicating the rotation shaft accommodation bore to front compression chambers. The rotation shaft includes a groove passage that communicates with the suction passages. Further, the rotation shaft includes an annular groove that communicates the communication conduit with the groove passage. The annular groove includes a front side surface, which is spaced toward the rear housing from an opening of the rotary shaft accommodation bore that faces the front housing. | 10-04-2012 |
20130343922 | SWASH-PLATE-TYPE COMPRESSOR - A swash-plate-type compressor of a double-headed-piston configuration, wherein: a front intake chamber is formed set apart from a swash plate chamber so as to be positioned in a narrow space between circumferentially arranged front cylinder bores; and an intake-chamber-communication path is formed in a cylinder block, the intake-chamber-communication path allowing the front intake chamber and a shaft hole to communicate. A front-bore-communication path is formed on the cylinder block, the communication path allowing each of the plurality of front cylinder bores to communicate with the shaft hole. A front rotary valve is provided on a rotating shaft in which a lead-in groove is formed. The lead-in groove allows the intake-chamber communication path and the front-bore communication path to communicate in the stated order, while the lead-in groove rotates integrally with the rotating shaft. In the compact swash-plate-type compressor any decrease in pulsation or intake efficiency is minimized. | 12-26-2013 |
20140086760 | COMPRESSOR - A compressor is provided with a cylinder block including a cylinder bore, a housing coupled to the end of the cylinder block, and a discharge valve held between the cylinder block and the housing. An end of the cylinder block includes a partition that closes one end of the cylinder bore. The partition includes a bottom portion forming a bottom surface of the cylinder bore. The housing includes an outer wall and an inner wall. The outer wall includes two partition supports that are in contact with parts of the bottom portion. The two partition supports are arranged on opposite sides of the discharge valve and extend toward the inner wall. | 03-27-2014 |
20140241925 | SWASH PLATE COMPRESSOR - A swash plate type compressor includes a drive shaft, a swash plate, a piston, a cylinder block, a housing, a cylinder bore, a compression chamber, suction and discharge chambers and first and second thrust bearings. The cylinder bore is formed in the cylinder block and receiving therein the piston engaged with the swash plate mounted on the drive shaft. The compression chamber is defined in the cylinder bore by the piston so as to be communicable with the suction and the discharge chambers formed in the housing. The first and the second thrust bearings are disposed on opposite sides of the swash plate. The drive shaft extends through the cylinder block and supported in a thrust direction by the first and the second thrust bearings, and either one of the first and the second thrust bearings is disposed outside the cylinder block and between the housing and the drive shaft. | 08-28-2014 |
20140294617 | PISTON TYPE SWASH PLATE COMPRESSOR - A piston type swash plate compressor includes a housing, a cylinder block, a cylinder head, a rotary shaft, a plurality of cylinder bores, a plurality of pistons, a swash plate, a plurality of compression chambers, a plurality of head-side discharge chambers, a plurality of block-side discharge chambers, an outlet and a discharge path. The head-side discharge chambers are provided in the cylinder head. The block-side discharge chambers are provided in the cylinder block. The outlet is formed through the housing. The discharge path is formed in the housing and refrigerant gas is flowed through the discharge path from the compression chamber to the outlet through the head-side discharge chamber to the block-side discharge chamber. After refrigerant gas flowed from the compression chamber is flowed through one head-side discharge chamber which communicates with the compression chamber and one block-side discharge chamber, the refrigerant gas is flowed to another head-side discharge chamber. | 10-02-2014 |
20140294637 | COMPRESSOR - A compressor includes a housing, a cylinder block, a valve plate, a discharge valve forming plate and a retainer gasket. The discharge valve forming plate includes a discharge valve, a connecting portion and a discharge valve engaging portion. The discharge valve opens and closes the discharge port. A plurality of discharge valve support portions extends from the connecting portion to support the discharge valve. The discharge valve engaging portion extends from the connecting portion. The retainer gasket includes a retainer, a gasket and a retainer gasket engaging portion. The retainer restricts an opening and closing operation of the discharge valve. The gasket ensures airtightness between the housing and the cylinder block. The retainer gasket engaging portion is formed by bending a part of the retainer gasket. The discharge valve forming plate and the retainer gasket are positioned by connecting the discharge valve engaging portion and the retainer gasket engaging portion. | 10-02-2014 |
Patent application number | Description | Published |
20090032779 | CONDUCTIVE PATTERN FORMATION INK, CONDUCTIVE PATTERN AND WIRING SUBSTRATE - A conductive pattern formation ink capable of producing a conductive pattern with reduced likelihood of generation of cracks, a conductive pattern which is small in the number of cracks generated, low in specific resistance and superior in high-frequency characteristics, and a wiring substrate provided with the conductive pattern which is small in the number of cracks generated, low in specific resistance and superior in high-frequency characteristics are provided. The conductive pattern formation ink is used for forming a conductive pattern on a base member by patterning and comprised of a dispersion solution. The dispersion solution includes a solvent, metal particles dispersed in the solvent, and an anti-cracking agent contained in the solvent, wherein the anti-cracking agent is contained for preventing generation of cracks in the conductive pattern during desolvation of the solvent. | 02-05-2009 |
20090090272 | CONDUCTIVE PATTERN FORMATION INK, CONDUCTIVE PATTERN AND WIRING SUBSTRATE - A conductive pattern formation ink which can be stably ejected from a liquid droplet ejection head, a conductive pattern having high reliability, and a wiring substrate provided with the conductive pattern and having high reliability are provided. The conductive pattern formation ink is used for forming a conductive pattern on a base member using a liquid droplet ejecting method and comprised of a dispersion solution. The dispersion solution includes a water-based dispersion medium, metal particles dispersed in the water-based dispersion medium, and a drying suppressant contained in the water-based dispersion medium, the drying suppressant being contained for preventing drying of the dispersion solution. | 04-09-2009 |
20090126856 | METHOD FOR MANUFACTURING MULTILAYER CERAMIC SUBSTRATE - A method for manufacturing a multilayer ceramic substrate includes: a) discharging a droplet of a conductive ink on each of a plurality of green sheets so as to draw a liquid pattern made of the conductive ink on each of the green sheets; b) drying the liquid pattern so as to form a dry pattern; c) laminating the green sheets including the dry pattern so as to form a laminated body, and applying hydrostatic pressure on the laminated body that is decompress-packaged so as to form a pressure-bonded body; and d) firing the pressure-bonded body so as to form a multilayer ceramic substrate. In the method, in the step a), the liquid pattern is drawn by drawing a wiring liquid pattern and a dummy liquid pattern drawn along a vicinity of the wiring liquid pattern. | 05-21-2009 |
20090145638 | CONDUCTIVE PATTERN FORMATION INK, CONDUCTIVE PATTERN AND WIRING SUBSTRATE - A conductive pattern formation ink which can be stably ejected in the form of liquid droplets and form a conductive pattern having high reliability, a conductive pattern having high reliability, and a wiring substrate provided with the conductive pattern and having high reliability are provided. The conductive pattern formation ink is used for forming a conductive pattern by ejecting the ink in the form of liquid droplets on a surface of a ceramic molded body using a liquid droplet ejecting method, the ceramic molded body being made of a material containing ceramic particles and a binder. The ink contains a water-based dispersion medium, and metal particles dispersed in the water-based dispersion medium, wherein the water-based dispersion medium contains oxygen molecules and nitrogen molecules, and wherein when the water-based dispersion medium is analyzed using a gas chromatography method, a total amount of the oxygen and nitrogen molecules contained in the water-based dispersion medium is 12 ppm or less. | 06-11-2009 |
20090146113 | CONDUCTIVE PATTERN FORMING INK, CONDUCTIVE PATTERN, AND WIRING SUBSTRATE - A conductive pattern forming ink for forming a conductive pattern on a substrate by a droplet discharge method includes: metal particles; an aqueous dispersion medium in which the metal particles are dispersed; xylitol; and a polyglycerol compound having a polyglycerol skeleton. H shown in the following formula (I) is 0.10 to 0.70, and | 06-11-2009 |
20110169884 | METHOD FOR FORMING CONDUCTOR PATTERN, WIRING BOARD, AND LIQUID DROPLET EJECTING APAPRATUS - A method for forming a conductor pattern includes: forming a conductor pattern precursor by ejecting liquid droplets of a conductor pattern forming ink by a liquid droplet ejecting method onto a substrate, and drying the liquid droplets, thereby forming a conductor pattern precursor having a pad part and a wiring part connected to the pad part on the substrate; and firing the precursor, thereby forming the conductor pattern, wherein in the formation of the conductor pattern precursor, the liquid droplets of the conductor pattern forming ink are ejected in such a manner that positions where the liquid droplets of the conductor pattern forming ink are attached form plural concentric annular shapes within a pad forming region where the pad part is to be formed on the substrate. | 07-14-2011 |
20110212823 | CERAMIC SHAPED BODY AND WIRING BOARD - A ceramic shaped body for producing a wiring board includes a ceramic material, a binder, and a polyalcohol, the polyalcohol being present in at least a near-surface region of the ceramic shaped body. | 09-01-2011 |
Patent application number | Description | Published |
20110223476 | NON-AQUEOUS ELECTROLYTE AND LITHIUM SECONDARY BATTERY USING THE SAME - A non-aqueous electrolyte and a lithium secondary battery using the same are provided, which satisfy both flame retardancy and charge-discharge cycle characteristics, and attain a longer lifetime of the battery. A mixture of a chain carbonate, vinylene carbonate, a fluorinated cyclic carbonate and a phosphate ester is used as the non-aqueous electrolyte. It is desirable that the phosphate ester includes trimethyl phosphate and a fluorinated phosphate ester. Further, it is desirable that ethylene carbonate is further contained. | 09-15-2011 |
20110281178 | NONAQUEOUS ELECTROLYTE AND LITHIUM-ION SECONDARY BATTERY USING THEREOF - A nonaqueous electrolyte and a lithium-ion secondary battery using the same, wherein a mixture of a cyclic carbonate, a chain carbonate, a first phosphoric acid ester wherein bonding between carbons is a single bond, and a second phosphoric acid ester wherein bonding between carbons contains a double bond is used as the nonaqueous electrolyte. It is desirable that the first phosphoric acid ester is a trimethyl phosphate. In addition, it is desirable that the second phosphoric acid ester is a dimethylisopropenyl phosphate. | 11-17-2011 |
20130189591 | Lithium-Ion Battery - The present invention aims to improve the fire resistance of an electrolytic solution used for a lithium-ion battery and improve the life characteristics of the lithium-ion battery. In the lithium ion battery of the present invention, specific amounts of ethylene carbonate and dimethyl carbonate are used for a non-aqueous electrolytic solution, and trimethyl phosphate is added thereto. Specifically, the non-aqueous electrolytic solution contains 60 vol % or more of ethylene carbonate (EC) and dimethyl carbonate (DMC). The volume ratio of DMC to the sum of EC and DMC is 0.3 to 0.6, and the non-aqueous electrolytic solution contains 3 to 5 wt % of trimethyl phosphate (TMP) with respect to the total weight of the non-aqueous electrolytic solution. Such a non-aqueous electrolytic solution has an effect of improving the self-fire extinguishing property, and thus improves the safety of the lithium-ion battery. | 07-25-2013 |
20130202957 | Lithium-Ion Rechargeable Battery - Provided is a technique of achieving a longer-life lithium ion secondary battery. The lithium ion secondary battery includes a cathode including a cathode active material containing Mn, an anode including an anode active material containing graphite and non-aqueous electrolytic solution including electrolyte, and LiBF | 08-08-2013 |