Self-sustaining Carbon Mass Or Layer With Impregnant Or Other Layer Patents (Class 428/408)
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Patent number: 8405996Abstract: An article and method of forming the article is disclosed. The article includes a heat source, a heat-sink, and a thermal interface element having a plurality of freestanding nanosprings, a top layer, and a bottom layer. The nanosprings, top layer, and the bottom layers of the article include at least one inorganic material. The article can be prepared using a number of methods including the methods such as GLAD and electrochemical deposition.Type: GrantFiled: June 29, 2010Date of Patent: March 26, 2013Assignee: General Electric CompanyInventors: David Mulford Shaddock, Deng Tao, Hendrik Pieter Jacobus De Bock, Dalong Zhong, Christopher Michael Eastman, Kevin Matthew Durocher, Stanton Earl Weaver, Jr.
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Publication number: 20130065034Abstract: The present invention provides a method of producing a multi-layer graphene-laminated substrate which comprises laminating, on a substrate surface, multi-layer graphenes from a mass of multi-layer graphenes. The method of the present invention can provide an electrically conductive film and a transparent electrically conductive film made of graphenes more easily and stably.Type: ApplicationFiled: February 6, 2012Publication date: March 14, 2013Applicant: INCUBATION ALLIANCE, INC.Inventor: Kazuo Muramatsu
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Publication number: 20130059134Abstract: A method of conductively coupling a carbon nanostructure and a metal electrode is provided that includes disposing a carbon nanostructure on a substrate, depositing a carbon-containing layer on the carbon nanostructure, according to one embodiment, and depositing a metal electrode on the carbon-containing layer. Further provided is a conductively coupled carbon nanostructure device that includes a carbon nanostructure disposed on a substrate, a carbon-containing layer disposed on the carbon nanostructure and a metal electrode disposed on the carbon-containing layer, where a low resistance coupling between the carbon nanaostructure and metal elements is provided.Type: ApplicationFiled: September 7, 2011Publication date: March 7, 2013Inventors: Yang Chai, Arash Hazeghi, Kuniharu Takei, Ali Javey, H.S. Philip Wong
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Publication number: 20130059155Abstract: A gas barrier thin film may include a substrate, an inorganic oxide layer, and a graphene layer between the substrate and the inorganic oxide layer. An encapsulation thin film and electronic device may include the gas barrier thin film. A method of preparing a gas barrier thin film may include forming a graphene layer by transferring graphene on a surface of a substrate, and forming an inorganic oxide layer by depositing an inorganic oxide on the graphene layer.Type: ApplicationFiled: August 31, 2012Publication date: March 7, 2013Applicants: Industry-University Cooperation foundation Hanyang University, SAMSUNG ELECTRONICS CO., LTD.Inventors: Jae-young CHOI, Ho-bum PARK
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Composite thermal interface material including aligned nanofiber with low melting temperature binder
Patent number: 8389119Abstract: A thermal interface material includes a mechanically compliant vertically aligned nanofiber film and a binder material for joining the nanofibers of the film to the surfaces of two substrates. Preferably, the binder material comprises a non-hydrocarbon-based material such as a metallic eutectic with a melting temperature below a nanofiber thermal damage threshold temperature of the film. The film is grown on a substrate which is then bonded to another substrate by the binder material in an adhesion process that may include pressure and heat. Alternatively, the film may be released from the substrate to produce a stand-alone thermal tape which may later be placed between two substrates and bonded.Type: GrantFiled: July 26, 2007Date of Patent: March 5, 2013Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Matthew Panzer, Kenneth E. Goodson, Xuejiao Hu, David Mann -
Publication number: 20130049187Abstract: A composite structure 10 of a resin-diamagnetic material, including a diamagnetic material layer 12 and a resin layer 14 is obtained by a method including disposing particles of a diamagnetic material 22 and a resin 24 in a mold 30, applying a magnetic field to the diamagnetic material 22 disposed in the mold 30, and moving the diamagnetic material 22 in a direction away from at least a part of an inner surface of the mold 30, and then curing the resin 24 in the mold 30 thereby to produce a resin-diamagnetic material composite structure.Type: ApplicationFiled: August 22, 2012Publication date: February 28, 2013Inventors: Masanori MINAMIO, Daisuke Ujihara, Hiroshi Wada
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Publication number: 20130052121Abstract: An object of the present invention is to solve a problem such as a small crystal size, which is the issue of a conventional method for formation of a film of graphene by a thermal CVD technique using a copper foil as a substrate, and thus providing a carbon film laminate in which graphene having a larger crystal size is formed. The carbon film laminate is configured to include a sapphire (0001) single crystal having a surface composed of terrace surfaces which are flat at the atomic level, and atomic-layer steps, a copper (111) single crystal thin film formed by epitaxial growth on the substrate and graphene deposited on the copper (111) single crystal thin film, and thus enabling formation of graphene having a large crystal size.Type: ApplicationFiled: February 25, 2011Publication date: February 28, 2013Inventors: Masataka Hasegawa, Masatou Ishihara, Yoshinori Koga, Jaeho Kim, Kazuo Tsugawa, Sumio Iijima
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Patent number: 8383239Abstract: A bearing comprises at least one inner ring and at least one outer ring. At least a part of the surfaces of the inner ring and/or the outer ring is coated with a layer consisting of or containing fullerene-like carbon nitride (FL-CNx), and wherein an inter-layer of chromium (Cr) or aluminum (Al) or molybdenum (Mo) or titanium (Ti) or tungsten (W) or a diamond-like coating (DLC) or a metal-mix diamond-like coating (Me-DLC) is arranged between the surface of the inner ring and/or the outer ring and the layer.Type: GrantFiled: July 29, 2006Date of Patent: February 26, 2013Assignee: Aktiebolaget SKFInventors: Steuart Horton, Lars Hultman
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Publication number: 20130046346Abstract: A multilayer article including a thermoplastic layer having a first surface and a second surface opposite the first surface and a base layer have a first base surface and a second base surface opposite the first base surface, wherein the first base surface of the base layer is permanently bonded to the second surface of the thermoplastic layer, wherein the thermoplastic layer has a first glass transition temperature, Tg1, and wherein the multilayer article is rigid at temperatures less than Tg1 and is flexible at temperatures greater than Tg1.Type: ApplicationFiled: August 15, 2012Publication date: February 21, 2013Inventors: Goetz Thorwarth, Cyril Voisard
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Publication number: 20130045427Abstract: The present invention provides a battery or supercapacitor current collector which is prelithiated. The prelithiated current collector comprises: (a) an electrically conductive substrate having two opposed primary surfaces, and (b) a mixture layer of carbon (and/or other stabilizing element, such as B, Al, Ga, In, C, Si, Ge, Sn, Pb, As, Sb, Bi, Te, or a combination thereof) and lithium or lithium alloy coated on at least one of the primary surfaces, wherein lithium element is present in an amount of 1% to 99% by weight of the mixture layer. This current collector serves as an effective and safe lithium source for a wide variety of electrochemical energy storage cells, including the rechargeable lithium cell (e.g. lithium-metal, lithium-ion, lithium-sulfur, lithium-air, lithium-graphene, lithium-carbon, and lithium-carbon nanotube cell) and the lithium ion based supercapacitor cell (e.g, symmetric ultracapacitor, asymmetric ultracapacitor, hybrid supercapacitor-battery, or lithium-ion capacitor).Type: ApplicationFiled: August 19, 2011Publication date: February 21, 2013Inventors: Aruna Zhamu, Yanbo Wang, Bor Z. Jang
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Publication number: 20130045367Abstract: A coating based on diamond-like is formed from a plurality of films of diamond-like carbon formed alternatingly over one another and in this respect a film in which no portion or only a much lower portion of doped fluorine is contained. A film in which fluorine or at least fluorine with a higher portion than the film arranged thereunder or thereabove are formed alternatingly over one another. The coating could be manufactured by using a target of pure carbon. Films are deposited on a surface of a substrate by means of a PVD process, with the portion of fluorine contained in doped form. Films are formed alternately being varied by varying a supplied volume flow of a fluorine/carbon compound or sulfur/fluorine compound as a precursor.Type: ApplicationFiled: July 13, 2012Publication date: February 21, 2013Applicants: Fraunhofer USA, Inc., Fraunhofer-Gesellschaft zur Foerderung der angewandten Forschung e.V.Inventors: Hans-Joachim Scheibe, Thomas Schuelke, Lars Haubold, Michael Becker, Yaran Mahmut
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Patent number: 8378357Abstract: The present invention relates to a multilayered structure including at least one diamond layer and methods of making the multilayered structures. The multilayered structure includes a diamond layer having a top surface and a bottom surface, and when desired at least one metal filled via in the diamond layer, a first thin adhesion layer on the top surface, a second thin adhesion layer on the bottom surface, a first metal layer having a thermal conductivity greater than 200 W/m-K and a coefficient of thermal expansion greater than 12 ppm/K, wherein the first metal layer is deposited on the first thin adhesion layer, and a second metal layer having a thermal conductivity greater than 200 W/m-K and a coefficient of thermal expansion greater than 12 ppm/K, wherein the second metal layer is deposited on the second thin adhesion layer.Type: GrantFiled: April 1, 2012Date of Patent: February 19, 2013Assignee: SP3, Inc.Inventors: Jerry Wayne Zimmer, Gerard James Chandler
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Patent number: 8377556Abstract: Systems and methods for creating carbon nanotubes are disclosed that comprise a growing a nanotube on a tri-layer material. This tri-layer material may comprise a catalyst and at least one layer of Ti. This tri-layer material may be exposed to a technique that is used to grow a nanotube on a material such as a deposition technique.Type: GrantFiled: November 26, 2008Date of Patent: February 19, 2013Assignee: STMicroelectronics Asia Pacific Pte., Ltd.Inventors: Adeline Chan, Ivan Teo, Zhonglin Miao, Shanzhong Wang, Vincenzo Vinciguerra
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Publication number: 20130040146Abstract: 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.Type: ApplicationFiled: August 1, 2012Publication date: February 14, 2013Applicant: SONY CORPORATIONInventors: Nozomi Kimura, Toshiyuki Kobayashi, Daisuke Hobara, Masashi Bando, Keisuke Shimizu, Koji Kadono
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Publication number: 20130040397Abstract: A method for preparing carbon allotrope based sulfide detectors comprising first functionalizing a carbon allotrope, such as a single-walled carbon nanotubes or graphene, with a solution of a polynuclear aromatic hydrocarbon-sulfonic acid, such as 1-pyrenesulfonic acid, followed by treatment with a metal, such as gold nanowires or cupric salt doped polyaniline, to give a metal-functionalized carbon allotrope, then drop casting the metal-functionalized carbon allotrope onto an inert surface, such as a silicon dioxide film on a silicon wafer having electrodes. Detection of sulfides may be by means such as photochemical or conductance methods. The hydrogen sulfide detectors may be used to detect and/or quantitate ppb and ppm levels of hydrogen sulfide in industrial settings or in detecting halitosis.Type: ApplicationFiled: October 3, 2011Publication date: February 14, 2013Inventors: ALEXANDER STAR, Mengning Ding
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Patent number: 8372766Abstract: Conductive nonwoven webs are disclosed. The nonwoven webs contain pulp fibers combined with conductive fibers. In one embodiment, the webs are made in a wetlaid tissue making process.Type: GrantFiled: July 31, 2007Date of Patent: February 12, 2013Assignee: Kimberly-Clark Worldwide, inc.Inventors: Davis-Dang H. Nhan, Duane Joseph Shukoski
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Patent number: 8372511Abstract: A fine carbon fiber having linearity, each fiber filament of the carbon fiber having a bending angle of 30° or less with respect to the longitudinal direction of the fiber filament, and including a hollow space extending along its axis, and having an outer diameter of 1 to 1,000 nm, an aspect ratio of 5 to 1,000, and a BET specific surface area of 2 to 2,000 m2/g, wherein the average interlayer distance (d002) of the carbon fiber at a (002) plane is 0.345 nm or less as measured by means of X-ray diffractometry, and the ratio of the peak height (Id) of the band at 1,341 to 1,349 cm?1 in a Raman scattering spectrum of the carbon fiber to that of the peak height (Ig) of the band at 1,570 to 1,578 cm?1 in the spectrum (Id/Ig) is 0.1 to 2. The fiber exhibits excellent dispersibility in a matrix.Type: GrantFiled: December 6, 2011Date of Patent: February 12, 2013Assignee: Showa Denko K.K.Inventors: Koichiro Yonetake, Tatsuhiro Takahashi, Ryuji Yamamoto, Toshio Morita
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Patent number: 8372510Abstract: A carbon foam article useful for, inter alia, composite tooling or other high temperature applications, which includes a carbon foam having a ratio of compressive strength to density of at least about 7000 psi/g/cc.Type: GrantFiled: February 4, 2009Date of Patent: February 12, 2013Assignee: GrafTech International Holdings Inc.Inventors: Douglas J. Miller, Irwin C. Lewis, Robert A. Mercuri
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Publication number: 20130032913Abstract: 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.Type: ApplicationFiled: July 25, 2012Publication date: February 7, 2013Applicant: SONY CORPORATIONInventors: Nozomi Kimura, Daisuke Hobara, Toshiyuki Kobayashi, Masashi Bando, Keisuke Shimizu, Koji Kadono
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Patent number: 8367207Abstract: The invention relates to a hydrogenated amorphous carbon coating and to a method for the production thereof. It also relates to devices having such a coating. The method of the invention consists in producing a hydrogenated amorphous carbon coating comprising at least two layers of hydrogenated amorphous carbon, each of said layers having chemical compositions and physical and mechanical properties that are identical, and with thicknesses that are identical or different. The coating of the invention finds many applications, in particular in the mechanical field for parts subject to considerable wear and rubbing problems. It may also be applicable, in particular, in the field of surgical implants and in the MEMS (microelectromechanical systems) field.Type: GrantFiled: October 20, 2008Date of Patent: February 5, 2013Assignees: Commissariat a l'Energie Atomique et aux Energies Alternative, Centre National de la Recherche ScientifiqueInventors: Caroline Chouquet, Cédric Ducros, Frédéric Sanchette
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Patent number: 8367196Abstract: A graphite material includes a plurality of graphite particles and a plurality of pores. The plurality of graphite particles and the plurality of pores form a microstructure. A ratio of an elastic modulus to a compression strength of the graphite material ranges from 109 to 138. Preferably, a ratio of a total area of the pores to a whole area of the graphite material in a cross-section of the graphite material ranges from 17.94% to 19.97%.Type: GrantFiled: September 23, 2011Date of Patent: February 5, 2013Assignee: Ibiden Co., Ltd.Inventors: Toshiyuki Nishiwaki, Masahiro Yasuda, Toshiki Ito
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Patent number: 8361546Abstract: Systems and methods for adhering a substrate to a patterned layer are described. Included are in situ cleaning and conditioning of the substrate, and the application of an adhesion layer between the substrate and the patterned layer, as well as forming an intermediate layer between adhesion materials and the substrate.Type: GrantFiled: October 27, 2009Date of Patent: January 29, 2013Assignee: Molecular Imprints, Inc.Inventors: Edward B. Fletcher, Zhengmao Ye, Dwayne L. LaBrake, Frank Y. Xu
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Patent number: 8361349Abstract: A nanoparticle coated with a semiconducting material and a method for making the same. In one embodiment, the method comprises making a semiconductor coated nanoparticle comprising a layer of at least one semiconducting material covering at least a portion of at least one surface of a nanoparticle, comprising: (A) dispersing the nanoparticle under suitable conditions to provide a dispersed nanoparticle; and (B) depositing at least one semiconducting material under suitable conditions onto at least one surface of the dispersed nanoparticle to produce the semiconductor coated nanoparticle. In other embodiments, the nanoparticle comprises a fullerene. Further embodiments include the semiconducting material comprising CdS or CdSe.Type: GrantFiled: February 18, 2010Date of Patent: January 29, 2013Assignees: William Marsh Rice University, Natcore Technology Inc.Inventors: Andrew R. Barron, Dennis J. Flood, John Ryan Loscutova
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Publication number: 20130022811Abstract: The present disclosure relates to a stable graphene film, a preparing method of the stable graphene film, a graphene transparent electrode including the stable graphene film, and a touch screen including the stable graphene film.Type: ApplicationFiled: June 25, 2012Publication date: January 24, 2013Applicant: RESEARCH & BUSINESS FOUNDATION SUNGKYUNKWAN UNIVERSITYInventors: Jong-Hyun AHN, Byung Hee HONG, Chao YAN
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Patent number: 8353334Abstract: A lattice wick system that has a plurality of nano tube wicking walls configured to transport liquid through capillary action in a first direction, each set of the plurality of granular wicking walls forming respective vapor vents between them to transport vapor. A plurality of nano tube interconnect wicks embedded between respective pairs of the plurality of nano tube wicking walls transport liquid through capillary action in a second direction substantially perpendicular to the first direction. The nano tube interconnect wicks have substantially the same height as the nano tube wicking walls so that the plurality of nano tube wicking walls and the plurality of nano tube interconnect wicks enable transport of liquid through capillary action in two directions and the plurality of vapor vents transport vapor in a direction orthogonal to the first and second directions.Type: GrantFiled: June 27, 2008Date of Patent: January 15, 2013Assignee: Teledyne Scientific & Imaging, LLCInventors: Yuan Zhao, Chung-Lung Chen
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Patent number: 8349474Abstract: The invention relates to a hob cutter tool with a coating, wherein the coating is produced by a physical vapor deposition method, in which in a coating chamber in an atmosphere containing nitrogen, an arc discharge is generated in each case between at least one anode and at least one pure Al cathode on the one hand, and at least one pure Cr cathode on the other hand, and in this way, Al and Cr are vaporized from the cathode, in which the hob cutter tool to be coated is rotated in the coating chamber, wherein the tool is subsequently guided past the at least two cathodes, and in which the vaporized Al and Cr is deposited in atomic or ionized form together with nitrogen from the atmosphere containing nitrogen onto the hob cutter tool led rotating past the cathodes.Type: GrantFiled: August 18, 2009Date of Patent: January 8, 2013Assignee: Fette GmbHInventors: Marcus Morstein, Tibor Cselle, Andreas Lumkemann, Jorn Kohlscheen
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Patent number: 8349231Abstract: This invention relates to a process for the production of a shaped composite material and the material obtained through that process. In particular it relates to a process for obtaining a disk of composite ceramic material for disc brakes in which the friction coefficient is varied by varying the composition of the surface layer.Type: GrantFiled: December 30, 2004Date of Patent: January 8, 2013Assignee: Brembo Ceramic Brake Systems S.p.A.Inventors: Ralf Siegfried Goller, Marco Orlandi, Riccardo Piavani
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Patent number: 8343452Abstract: A gas diffusion media for a fuel cell, such as a proton exchange membrane fuel cell, is provided. The gas diffusion media includes carbonizable acrylic pulp fibers instead of conventional phenolic resin as a binder material. The acrylic fibers are mixed with the carbon fiber dispersion during the papermaking step, thus eliminating the phenolic resin impregnation step typically associated with conventional gas diffusion media manufacturing processes. The mat is then cured and carbonized to produce gas diffusion media.Type: GrantFiled: March 20, 2006Date of Patent: January 1, 2013Assignee: GM Global Technology Operations LLCInventors: Chunxin Ji, Gerald J. Fleming, Margaret Fleming, legal representative, Mark Mathias
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Publication number: 20120328884Abstract: A method for fabricating a carbon-based composite material includes: (a) forming over a substrate a seeding layer that includes amorphous carbon matrix, and a plurality of ultra-nanocrystalline diamond grains; and (b) growing crystal grains over the seeding layer under a hybrid plasma to obtain the carbon-based composite material. The hybrid plasma is produced by ionization of a gas mixture. The gas mixture includes a hydrocarbon gas, H2, and an inert gas in a volume ratio of 1:(99?x):x based on 100 parts of the total volume of the gas mixture, and x satisfies 45<x<55. The hydrocarbon gas is selected from CH4, C2H2, and a combination thereof.Type: ApplicationFiled: January 24, 2012Publication date: December 27, 2012Applicant: TAMKANG UNIVERSITYInventor: I-Nan Lin
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Patent number: 8338330Abstract: A composition for hydrogen storage includes a source of hydrogen atoms, a receptor, and a chemical bridge formed between the source and the receptor. The chemical bridge is formed from a precursor material. The receptor is adapted to receive hydrogen spillover from the source.Type: GrantFiled: May 30, 2006Date of Patent: December 25, 2012Assignee: The Regents of The University of MichiganInventors: Ralph T. Yang, Yingwei Li, Gongshin Qi, Anthony J. Lachawiec, Jr.
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Patent number: 8338002Abstract: A sputtering composite target includes: an oxide based component containing indium oxide; and a carbon based component.Type: GrantFiled: June 4, 2009Date of Patent: December 25, 2012Assignee: Dexerials CorporationInventors: Hayato Hommura, Kenji Katori, Go Sudo
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Patent number: 8329283Abstract: A carbon-based composite material includes a graphite substrate and a carbon-based sheet. The carbon-based sheet is adhered to a surface of the graphite substrate with a heat-resistant adhesive. The carbon-based sheet has at least one of slits and grooves.Type: GrantFiled: November 7, 2008Date of Patent: December 11, 2012Assignee: Ibiden Co., Ltd.Inventors: Takashi Takagi, Masahiro Yasuda
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Publication number: 20120308949Abstract: In a sliding device, a first base member and a second base member are slid relative to each other. A hard carbon film is disposed on at least one of a first surface of the first base member and a second surface of the second base member opposed to the first surface of the first base member. Further, an intermediate layer is disposed between the hard carbon film and the one of the first surface of the first base member and the second surface of the second base member. The intermediate layer is made of a compound containing silicon and oxygen.Type: ApplicationFiled: May 29, 2012Publication date: December 6, 2012Applicants: TOHOKU UNIVERSITY, DENSO CORPORATIONInventors: Masaaki HIROSE, Yoshinobu Suzuki, Koshi Adachi
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Patent number: 8323796Abstract: A composite article includes a substrate and a protective layer on the substrate. The protective layer includes a non-oxide ceramic matrix and a refractory phase within the non-oxide ceramic matrix.Type: GrantFiled: July 17, 2007Date of Patent: December 4, 2012Assignee: United Technologies CorporationInventors: Wayde R. Schmidt, Tania Bhatia, Xia Tang, David C. Jarmon, Owen B. Donahue
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Publication number: 20120301095Abstract: Systems and methods for preparing films using sequential ion implantation, and films formed using same, are provided herein. A structure prepared using ion implantation may include a substrate; an embedded structure having pre-selected characteristics; and a film within or adjacent to the embedded structure and including ions having a perturbed arrangement arising from the presence of the embedded structure. The perturbed arrangement may include the ions being covalently bonded to each other, to the embedded structure, or to the substrate, whereas the ions instead may be free to diffuse through the substrate in the absence of the embedded structure. The embedded structure may inhibit or impede the ions from diffusing through the substrate, such that the ions instead covalently bond to each other, to the embedded structure, or to the substrate. The film may include, for example, diamond-like carbon, graphene, or SiC having a pre-selected phase.Type: ApplicationFiled: August 6, 2012Publication date: November 29, 2012Inventors: Margaret H. Abraham, David P. Taylor
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Publication number: 20120301723Abstract: On the surface of a carbon substrate 41, a tantalum carbide coating film 42 is formed to coat the carbon substrate 41. The tantalum carbide coating film 42 has a maximum peak value of at least 80 degrees in an orientation angle of a (311) plane corresponding to a diffraction peak of tantalum carbide as determined by X-ray diffraction.Type: ApplicationFiled: December 28, 2010Publication date: November 29, 2012Applicant: TOYO TANSO CO., LTD.Inventor: Mika Kondo
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Publication number: 20120301816Abstract: A method of preparing a carbon thin film, and an electronic device and an electrochemical device that include the carbon thin film.Type: ApplicationFiled: May 22, 2012Publication date: November 29, 2012Applicant: POSTECH ACADEMY-INDUSTRY FOUNDATIONInventor: Tae-Woo LEE
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Publication number: 20120301707Abstract: The present invention relates to novel nanocomposite materials, methods of making nanocomposites and uses of nanocomposite materials.Type: ApplicationFiled: January 18, 2011Publication date: November 29, 2012Inventors: Ian Anthony Kinloch, Robert Joseph Young, Konslantin Sergeevich Novoselov
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Patent number: 8318295Abstract: A carbon nanotube composite structure includes a matrix and a carbon nanotube structure. The matrix has a surface. The carbon nanotube structure is incorporated in the matrix. A distance between the carbon nanotube structure and the surface is less than 10 micrometers. The carbon nanotube structure includes a plurality of carbon nanotubes joined with each other by van der Waals attractive force.Type: GrantFiled: April 26, 2011Date of Patent: November 27, 2012Assignees: Tsinghua University, Hon Hai Precision Industry Co., Ltd.Inventors: Jia-Ping Wang, Rui Xie, Kai-Li Jiang, Shou-Shan Fan
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Patent number: 8318307Abstract: A method of improving the material properties of a composite by electrodepositing various polymers, organic compounds or inorganic compounds onto each individual carbon (graphite) fiber strand, whether individual fiber or as a fabric to form an homogeneous chemically-bonded composite as opposed to the formation of a heterogeneous, non-chemically bonded composite. Thus, electrodeposition forms a unique discrete interface at the molecular layer (nanolayer) between the reinforcement (fiber) and the matrix (resin) over as opposed to any previous resin infusion process.Type: GrantFiled: March 26, 2007Date of Patent: November 27, 2012Assignee: The Boeing CompanyInventors: Norman R. Byrd, Stephen C. Amundson, Robert H. Coker, III
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Patent number: 8318308Abstract: This invention provides an aligned single-layer carbon nanotube bulk structure, which comprises an assembly of a plurality of aligned single-layer carbon nanotube and has a height of not less than 10 ?m, and an aligned single-layer carbon nanotube bulk structure which comprises an assembly of a plurality of aligned single-layer carbon nanotubes and has been patterned in a predetermined form. This structure is produced by chemical vapor deposition (CVD) of carbon nanotubes in the presence of a metal catalyst in a reaction atmosphere with an oxidizing agent, preferably water, added thereto. An aligned single-layer carbon nanotube bulk structure, which has realized high purify and significantly large scaled length or height, its production process and apparatus, and its applied products are provided.Type: GrantFiled: December 22, 2011Date of Patent: November 27, 2012Assignee: National Institute of Advanced Industrial Science and TechnologyInventors: Kenji Hata, Sumio Iijima, Motoo Yumura, Don N. Futaba
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Publication number: 20120295091Abstract: Methods for producing carbon films are disclosed herein. The methods include treating a carbon nanostructure with one or more dispersing agents, filtering the solution through a filter membrane to form the carbon film, releasing the carbon film from the filter membrane, and transferring the film onto a desired substrate without the use of sonication. Carbon films formed by said methods are also disclosed herein.Type: ApplicationFiled: November 9, 2010Publication date: November 22, 2012Applicant: William Marsh Rice UniversityInventors: Matteo Pasquali, Robert H. Hauge, Budhadipta Dan, Natnael Behabtu, Cary Pint
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Publication number: 20120295096Abstract: Nanocomposite materials comprising a metal oxide bonded to at least one graphene material. The nanocomposite materials exhibit a specific capacity of at least twice that of the metal oxide material without the graphene at a charge/discharge rate greater than about 10 C.Type: ApplicationFiled: July 26, 2012Publication date: November 22, 2012Inventors: Jun Liu, Ilhan A. Aksay, Daiwon Choi, Donghai Wang, Zhenguo Yang
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Publication number: 20120288762Abstract: Embodiments of the present disclosure provide for flexible graphene-coated pyrolytic carbon materials or structures, methods of making, methods of use, materials including the graphene-coated pyrolytic carbon material or structure, structures including the graphene-coated pyrolytic carbon material or structure, and the like.Type: ApplicationFiled: May 1, 2012Publication date: November 15, 2012Applicant: UNIVERSITY OF GEORGIA RESEARCH FOUNDATION, INC.Inventors: Ian R. Hardin, Ming Zhang
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Publication number: 20120288670Abstract: A film capable of emitting far infrared rays is composed of a surface layer and a carbonic layer coating the surface layer. The carbonic layer includes carbon of at least 60 wt %. When the film is applied to the human skin, the temperature of the skin can be heightened and the blood circulation can be enhanced, so the absorbability of the active ingredients in the film by the human skin can be enhanced. Beside, the film can resist ultraviolet rays to prevent the skin from ultraviolet injury.Type: ApplicationFiled: June 28, 2011Publication date: November 15, 2012Applicant: BIO-MEDICAL CARBON TECHNOLOGY CO., LTD.Inventors: Tse-Hao Ke, Jui-Hsiang Lin, Yen-Ju Su
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Patent number: 8309225Abstract: A heat dissipative composite material including a carbon fiber lay-up having a resin pyrolized to form a graphitic carbon laminate structure. A structural resin fills voids in the graphitic carbon laminate structure and provides strength to the graphitic carbon laminate structure.Type: GrantFiled: June 25, 2008Date of Patent: November 13, 2012Assignee: ITT Manufacturing Enterprises, Inc.Inventor: Steven R. Rodgers
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Patent number: 8309226Abstract: This invention is directed to an article comprising a transparent substrate and an electrically conductive transparent coating deposited on the transparent substrate. This invention is also directed to methods for preparing the electrically conductive transparent coating and depositing the coating on the transparent substrate. This invention is further directed to devices containing such articles. The electrically conductive transparent coating comprises carbon nanotubes filled, coated, or both filled and coated by a non-carbon material.Type: GrantFiled: July 29, 2008Date of Patent: November 13, 2012Assignee: Yazaki CorporationInventors: Sean Imtiaz Brahim, Robert L. Gump, Steven G. Colbern, Leonid Grigorian
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Patent number: 8309050Abstract: PCD materials comprise a diamond body having bonded diamond crystals and interstitial regions disposed among the crystals. The diamond body is formed from diamond grains and a catalyst material at high pressure/high temperature conditions. The diamond grains have an average particle size of about 0.03 mm or greater. At least a portion of the diamond body has a high diamond volume content of greater than about 93 percent by volume. The entire diamond body can comprise high volume content diamond or a region of the diamond body can comprise the high volume content diamond. The diamond body includes a working surface, a first region substantially free of the catalyst material, and a second region that includes the catalyst material. At least a portion of the first region extends from the working surface to depth of from about 0.01 to about 0.1 mm.Type: GrantFiled: January 12, 2009Date of Patent: November 13, 2012Assignee: Smith International, Inc.Inventors: Madapusi K. Keshavan, Youhe Zhang, Yuelin Shen, Anthony Griffo, Michael Janssen
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Patent number: 8309227Abstract: Carbon fibrous aggregator obtained by a chemical vapor phase growing method, which comprises plural granular parts, and plural carbon fibers which are mutually independently extended outwardly from their respective granular parts so that each granular part is associated with two or more of carbon fibers, wherein the carbon fibers show a three dimensional expansion in all; and which show a three dimensional network structure of the carbon fibers at least in a part by a state that at least a part of the plural carbon fibers extended from one granular part is linked with another granular part; wherein mean length of carbon fibers which link two granular parts together is of 3.0-20.0 ?m, and wherein a coefficient of variation, CV, ((standard deviation/mean value)×100) which is obtained on a determination of outer diameter distribution of the carbon fibers which constitute the aggregator of carbon fiber is not more than 30%.Type: GrantFiled: January 14, 2011Date of Patent: November 13, 2012Assignee: Hodogaya Chemical Co., Ltd.Inventors: Yoshinori Hitoe, Jun Suzuki
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Patent number: RE43867Abstract: A rocket motor assembly is insulated or thermally protected with a rocket motor ablative material formed from a prepreg. The prepreg contains at least an impregnating resin matrix and, as a precursor prior to carbonization, carded and spun staple cellulosic fibers. When patterned and carbonized, the rocket motor ablative material can be lined or otherwise placed into a rocket motor assembly, such as between the solid propellant and case, in the bulk area of the exit nozzle liner, or at susceptible portions of a re-entry vehicle, such as the nose cone.Type: GrantFiled: May 22, 2003Date of Patent: December 18, 2012Assignee: Alliant Techsystems Inc.Inventors: Kenneth P. Wilson, Shelley Rawding, legal representative, John K. Shigley, Allan P. Thompson