Elemental Carbon Patents (Class 502/180)
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Publication number: 20130085059Abstract: Permeable composite fibrous catalytic sheets comprised of at least three distinct solid phases. A first solid phase is a 3-dimensional porous network of a non-conductive porous ceramic material. A second solid phase is an electrically conductive phase comprised of randomly oriented electrically conductive fibers. A third phase is comprised of catalytic particles dispersed on said 3-dimensional porous network, said conductive fibers, or both. A fourth phase can be present, which fourth phase is comprised one or more conductive species or one or more non conductive species embedded in said first solid phase.Type: ApplicationFiled: November 18, 2012Publication date: April 4, 2013Inventor: Juzer Jangbarwala
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Publication number: 20130079559Abstract: A sulfur-containing palladium-carbon catalyst prepared by loading palladium on an active carbon, mixing the palladium-carbon catalyst with a solvent to form a slurry, adding a sulfide to the slurry to treat the loaded palladium under a predetermined temperature, and removing liquid and drying to obtain the catalyst. The sulfur-containing palladium-carbon catalyst is suitable for making phenylene diamine rubber antioxidant with improved productivity and selectivity.Type: ApplicationFiled: July 13, 2012Publication date: March 28, 2013Applicant: Jiangsu Sinorgchem Technology Co., Ltd.Inventors: Xiaonian LI, Qunfeng Zhang, Xinmin Chen, Feng Feng, Lei Ma, Chunshan Lu, Chunsheng Li
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Patent number: 8399580Abstract: Systems and methods for the maintenance of active chromium-based catalysts and their use in polymerization processes are described. In one embodiment, a system for the introduction of multiple polymerization components to activate a chromium based catalyst within a mix tank is described. Other described features may include materials and methods to purify the liquid medium of a catalyst slurry so that the catalyst slurry maintains a high level of activity. The active chromium-based catalyst may provide polyolefins with a number of desirable properties in a reliable, consistent, and predictable manner.Type: GrantFiled: August 11, 2010Date of Patent: March 19, 2013Assignee: Chevron Philips Chemical Company LPInventors: Elizabeth A. Benham, Max P. McDaniel, Kathy S. Collins
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Patent number: 8361663Abstract: The porous carbon structure according to one embodiment of the present invention includes mesopores, and at least two kinds of macropores having different average pore diameters. The porous carbon structure includes inter-connected pores and thereby increases specific surface area and improves electronic conductivity.Type: GrantFiled: November 26, 2008Date of Patent: January 29, 2013Assignee: Samsung SDI Co., Ltd.Inventors: Soon-Ki Kang, Geun-Seok Chai, Myoung-Ki Min, Chan Kwak, Alexey Alexandrovichserov
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Publication number: 20130023405Abstract: An activated carbon having a high catalytic activity as an oxidation catalyst or a decomposition catalyst, and use therefor are provided. The activated carbon has (a) an oxygen content in a range from 1.40 to 4.30% by mass, (b) a nitrogen content in a range from 0.90 to 2.30% by mass, (c) a sulfur content in a range from 0.50 to 1.20% by mass, and (d) a hydrogen content in a range from 0.40 to 0.65% by mass. The activated carbon may have at least one characteristic of (e) an amount of an acidic surface functional group of 0.10 to 0.36 meq/g, (f) an amount of a basic surface functional group of 0.50 to 1.30 meq/g, and (g) a benzene adsorption capacity of 25 to 50%. The activated carbon catalyzes an oxidation reaction of N-(phosphonomethyl) iminodiacetic acid with a peroxide (e.g., hydrogen peroxide) and achieves an efficient production of N-(phosphonomethyl)glycine even after repetitive use. The activated carbon also efficiently decomposes a chloramine.Type: ApplicationFiled: March 24, 2011Publication date: January 24, 2013Applicant: Kuraray Chemical Co., Ltd.Inventors: Mitsunori Hitomi, Takayuki Yoshikawa, Takayuki Yamada
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Publication number: 20120328880Abstract: A process is provided for producing carbon microparticles, wherein resin microparticles, metal-containing resin microparticles or daughter-particle-containing resin microparticles are subjected to carbonization baking, and wherein the synthetic resin microparticles, the metal-containing resin microparticles or the daughter-particle-containing resin microparticles are produced by a process comprising mixing a polymer (A) such as polyacrylonitrile copolymer microparticles composed of a copolymer of an acrylonitrile monomer and a hydrophilic vinyl monomer with a polymer (B) that is different from the polymer (A) in an organic solvent to produce an emulsion and bringing the emulsion into contact with a poor solvent for the polymer (A), thereby causing the polymer (A) to precipitate; and the carbon microparticles.Type: ApplicationFiled: December 21, 2010Publication date: December 27, 2012Applicant: Toray Industries, Inc.Inventors: Itaru Asano, Hiroshi Takezaki
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Patent number: 8329071Abstract: Multicomponent nanoparticles materials and apparatuses and processes therefor are disclosed. In one aspect of the disclosure, separate particles generated from solution or suspension or by flame synthesis or flame spray pyrolysis, and the resultant particles are mixed in chamber prior to collection or deposition. In another aspect of the disclosure, nanoparticles are synthesized in stagnation or Bunsen flames and allowed to deposit by thermophoresis on a moving substrate. These techniques are scalable allowing mass production of multicomponent nanoparticles materials and films. The foregoing techniques can be used to prepare composites and component devices comprising one or more lithium based particles intimately mixed with carbon particles.Type: GrantFiled: December 8, 2009Date of Patent: December 11, 2012Assignee: Hestia Tec, LLCInventors: Hai Wang, Denis Phares
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Patent number: 8314045Abstract: A porous solid acid catalyst having high concentration of acidic sites and a large surface area includes a porous silica support and a sulfonated carbon layer disposed within the pores of the silica support. The catalyst, in certain embodiments, has a concentration of —SO3H groups of at least about 0.5 mmol/g and a predominant pore size of at least about 300 ?. The catalyst is used to catalyze a variety of acid-catalyzed reactions, including but not limited to alkylation, acylation, etherification, olefin hydration and alcohol dehydration, dimerization of olefin and bicyclic compounds, esterification and transesterification. For example, the catalyst can be used to catalyze esterification of free fatty acids (FFAs) and, in certain embodiments, to catalyze transesterification of triglycerides in fats and oils.Type: GrantFiled: October 27, 2010Date of Patent: November 20, 2012Assignee: Entreprises Sinoncelli S.A.R.L.Inventors: Jacques Sinoncelli, Sergey V. Gurevich
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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: 20120283337Abstract: Sol-gel inorganic porous particles can be formed with two set of pores with different average sizes. These inorganic porous particles are composed of an inorganic compound that provides an inorganic solid phase including an external particle surface. They also have a first set of pores wherein the pores have an average diameter of less than 100 nm and a second set of pores wherein the pores have an average diameter of at least 100 nm. The second set of pores contains stabilizing organic microgel particles. The first and second sets of pores are isolated from each other within the inorganic solid phase.Type: ApplicationFiled: May 5, 2011Publication date: November 8, 2012Inventors: Mary Christine Brick, Joseph Salvatore Sedita, Mridula Nair
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Patent number: 8304362Abstract: The invention discloses core/shell type catalyst particles comprising a Mcore/Mshell structure with Mcore=inner particle core and Mshell=outer particle shell, wherein the medium diameter of the catalyst particle (dcore+shell) is in the range of 20 to 100 nm, preferably in the range of 20 to 50 nm. The thickness of the outer shell (tshell) is about 5 to 20% of the diameter of the inner particle core of said catalyst particle, preferably comprising at least 3 atomic layers. The core/shell type catalyst particles, particularly the particles comprising a Pt-based shell, reveal a high specific activity. The catalyst particles are preferably supported on suitable support materials such as carbon black and are used as electrocatalysts for fuel cells.Type: GrantFiled: August 27, 2007Date of Patent: November 6, 2012Assignee: Umicore AG & Co. KGInventors: Marco Lopez, Michael Lennartz, Dan V. Goia, Carsten Becker, Stéphanie Chevalliot
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Publication number: 20120277446Abstract: The present invention relates to a method of producing propylene oxide, comprising a step of reacting propylene and oxygen in the presence of a silver catalyst and water, wherein the silver catalyst is a catalyst prepared from (a) metallic silver, a silver compound or a mixture thereof, (b) a tellurium compound and (c) a carrier.Type: ApplicationFiled: December 6, 2010Publication date: November 1, 2012Inventors: Yoshihiko Ohishi, Hirotsugu Kano, Avelino Corma
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Publication number: 20120271073Abstract: A process for regenerating a coked catalytic cracking catalyst which the carbon-containing deposits on the catalyst contains at least 1 wt % bio-carbon, based on the total weight of carbon present in the carbon-containing deposits is provided. Such coked catalytic cracking catalyst is contacted with an oxygen containing gas at a temperature of equal to or more than 550° C. in a regenerator to produce a regenerated catalytic cracking catalyst, heat and carbon dioxide.Type: ApplicationFiled: April 23, 2012Publication date: October 25, 2012Applicant: SHELL OIL COMPANYInventors: Andries Quirin Maria BOON, Johan Willem GOSSELINK, John William HARRIS, Andries Hendrik JANSSEN, Colin John SCHAVERIEN, Nicolaas Wilhelmus Joseph WAY
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Publication number: 20120264595Abstract: This invention relates to the field of heterogeneous catalysis, and more particularly to catalysts including carbon supports having compositions which comprise one or more transition metals in combination with nitrogen and/or carbon formed on or over the surface of the carbon support. The present invention also relates to catalyst combinations comprising catalysts including carbon supports having compositions which comprise one or more transition metals in combination with nitrogen and/or carbon formed on or over the surface of a carbon support and a secondary catalyst or, co-catalyst, including a secondary transition metal. The invention further relates to the field of catalytic oxidation reactions, including the preparation of secondary amines by the catalytic oxidation of tertiary amines.Type: ApplicationFiled: April 19, 2012Publication date: October 18, 2012Applicant: MONSANTO TECHNOLOGY LLCInventors: Juan P. Arhancet, Fuchen Liu
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Publication number: 20120245397Abstract: An olefin hydration catalyst and method for producing same is provided. The olefin hydration catalyst can be prepared by contacting a niobium containing compound with a strong Bronsted acid, such as sulfuric or phosphoric acid, to produce niobium oxo sulfate or niobium oxo phosphate nanoparticles. The nanoparticles can be separated, dried and utilized in a reactor for the hydration of olefins to their corresponding alcohols.Type: ApplicationFiled: March 21, 2011Publication date: September 27, 2012Applicant: Saudi Arabian Oil CompanyInventors: Abdennour Bourane, Stephan Ralf Vogel, Wei Xu
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Patent number: 8273679Abstract: A porous catalyst includes at least one noble nano-metal particle, an oxide for forming porous structures, and a carrier material for supporting the oxide and the at least one noble nano-metal particle. The porous catalyst shows a large electrochemical surface area and a highly conductive ability. Further, the noble nano-metal particles are separated on the oxides uniformly, and the oxide of the catalyst forms a porous structure to provide a large electrochemical surface area. The porous catalyst provides excellent proton/electron transfer ability and increases the reaction rate.Type: GrantFiled: September 24, 2010Date of Patent: September 25, 2012Assignee: National Central UniversityInventors: Po-Jen Chu, Jhuh-Wei Yang, Chieh-Chun Chang, Huang-Yu Lee
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Publication number: 20120238440Abstract: This invention provides novel fuel cell electrodes and catalysts comprising a series of catalytically active thin-film metal alloys with low platinum concentration supported on nanostructured materials (nanoparticles). Processing of the electrodes and catalysts can include electrodeposition methods, and high-pressure coating techniques. In certain embodiments, an integrated gas-diffusion/electrode/catalyst layer can be prepared by processing catalyst thin films and nanoparticles into gas-diffusion media such as Toray or SGL carbon fiber papers. The catalysts can be placed in contact with an electrolyte membrane for PEM fuel cell applications.Type: ApplicationFiled: May 30, 2012Publication date: September 20, 2012Applicant: Intematix CorporationInventors: Tao Gu, Thomas R. Omstead, Ning Wang, Yi Dong, Yi-Qun Li
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Publication number: 20120208904Abstract: The present invention relates to a sulphided multi-metallic catalyst, a process for obtaining it by preparing a metal mixture and subsequent sulphidation thereof and its use in a process for producing higher alcohols (C2+), mainly ethanol, through the catalytic conversion of synthesis gas.Type: ApplicationFiled: August 12, 2010Publication date: August 16, 2012Applicant: ABENGOA BIOENERGIA NUEVAS TECNOLOGLAS S.A.Inventors: Gonzalo Prieto González, José Manuel Serra Alfaro, Agustin Martínez Feliu, Juan Luis Yagüe, José Caraballo Bello, Ricardo Arjona Antolín
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Publication number: 20120196743Abstract: An oxidation catalyst containing a carbon material prepared by calcining a transition metal compound and a nitrogen-containing organic substance, or a transition metal compound, a nitrogen-containing organic substance, and a carbon compound not containing nitrogen, the oxidation catalyst oxidizing CO and/or a hydrocarbon.Type: ApplicationFiled: May 28, 2010Publication date: August 2, 2012Applicant: Nisshinbo Holdings Inc.Inventors: Seizo Miyata, Hideo Kameyama, Yu Guo
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Publication number: 20120178618Abstract: A carbon porous body (ICY) includes a carbon skeleton containing carbon atoms, wherein the carbon skeleton includes carbon main sections and carbon linking sections mutually linking the carbon main sections; a distance D1 between adjacent carbon main sections and a distance D2 between adjacent carbon linking sections satisfy the relationship of D1<D2; the carbon main sections are arranged three-dimensionally, regularly and symmetrically; and a specific surface area of the carbon porous body is not less than 1,300 m2/g and/or the pore capacity of the carbon porous body is not less than 1.5 cm3/g.Type: ApplicationFiled: March 22, 2012Publication date: July 12, 2012Applicant: NATIONAL INSTITUTE FOR MATERIALS SCIENCEInventors: Ajayan VINU, Katsuhiko ARIGA, Masahiko MIYAHARA, Toshiyuki MORI
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Publication number: 20120177562Abstract: A process for producing densified and at least partially graphitised carbonaceous product. The process includes the following steps: heating a biomass in an oxygen controlled atmosphere to a first temperature under compression to form a plastically deformed intermediate product and heating the plastically deformed intermediate product in an oxygen controlled atmosphere to a second temperature that is higher than the first temperature, while constraining the intermediate product to limit or avoid volume expansion to form the densified and at least partially graphitised carbonaceous product.Type: ApplicationFiled: August 4, 2010Publication date: July 12, 2012Applicant: COMMONWEALTH SCIENTIFIC AND INDUSTRIAL RESEARCH CORPORATIONInventors: Roy Randall Lovel, Malisja De Varies
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Publication number: 20120175306Abstract: The present invention relates to active charcoals with improved mechanical properties. They can advantageously be used in the sweetening of petroleum fractions, as oxidation catalyst support in the conversion of mercaptans to disulphides, but also in any other type of reaction, such as, for example, for the oxidation of cyanide present in water or in the synthesis of glyphosate, and in processes for purification and/or separation by selective adsorption in a liquid phase and/or in a gas phase (decolouration of liquid foodstuffs, water treatment, air treatment, recovery of solvents, and the like).Type: ApplicationFiled: November 14, 2011Publication date: July 12, 2012Inventor: Remy LeBec
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Publication number: 20120168351Abstract: An improved process for preparing a slurry catalyst for the upgrade of heavy oil feedstock is provided. The process employs rework material obtained from a process to prepare a hydroprocessing catalyst as part of the metal precursor feed. In one embodiment, the process comprises mixing the rework material with a hydrocarbon diluent to form a slurried metal precursor for subsequent in-situ sulfiding in a heavy oil upgrade process. In another embodiment, the rework is slurried in a hydrocarbon carrier and a sulfiding agent, forming a slurry catalyst. In yet another embodiment, the rework material is mixed directly with a heavy oil feedstock under in-situ sulfiding conditions, forming a slurry catalyst.Type: ApplicationFiled: December 20, 2011Publication date: July 5, 2012Applicant: c/o Chevron CorporationInventors: Erin P. Maris, Oleg Mironov, Julie Chabot
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Publication number: 20120165184Abstract: The present invention is directed to a composite material of a carbonaceous substance comprising a doped catalytic compound obtained by a sol-gel method. In one embodiment, the method comprises mixing a hydrolyzed solution comprising a precursor of a catalytic material with a carbonaceous material to obtain a sol. The sol is afterwards incubated while at the same time it is mixed. After incubation the sol is condensated to form a gel. After condensation the gel formed is subjected to a first calcination carried out in an oxidizing environment followed by a second calcination carried out in a non-oxidizing environment. The non-oxidizing environment comprises a second dopant comprising precursor material. Also, a solution of a first dopant comprising precursor material is added to the solution comprising an organometallic precursor of a catalytic material before hydrolyzation or before subjecting the gel to calcination, i.e. after hydrolyzation.Type: ApplicationFiled: June 22, 2010Publication date: June 28, 2012Applicant: NANYANG TECHNOLOGICAL UNIVERSITYInventors: Teik Thye Lim, Pow Seng Yap, Madhavi Srinivasan, Anthony Gordon Fane
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Patent number: 8206678Abstract: The invention relates to a vapor grown carbon fiber having a mean fiber diameter of 80 to 500 nm, an aspect ratio of 100 to 200 and preferably a bulk density of 0.02 g/cm3 or less, wherein filaments having a diameter within ±20% of the mean fiber diameter occupies 65% (on a number basis) or more of the total. The production method involves thermal decomposition of a carbon source at 800 to 1,300° C. in the presence of, as a catalyst, a transition metal compound having a vapor pressure of 0.13 kPa (1 mmHg) or more at 150° C. and spraying of the carbon source and the transition metal compound in gas form toward the reactor inner wall to allow reaction to proceed. The vapor grown carbon fiber having a larger aspect ratio has excellent dispersibility, and when added in a resin, a smaller amount contributes to enhancement in electroconductivity and thermal conductivity, as compared with a case using conventional one.Type: GrantFiled: June 7, 2005Date of Patent: June 26, 2012Assignee: Showa Denko K.K.Inventors: Kotaro Yano, Ryuji Yamamoto, Toshio Morita
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Publication number: 20120157298Abstract: The invention is directed to a process for producing carbon nanofibres and/or carbon nanotubes, which process comprises pyrolysing a particulate cellulosic and/or carbohydrate substrate that has been impregnated with a compound of an element or elements, the metal or alloy, respectively, of which is capable of forming carbides, in a substantially oxygen free, volatile silicon compound containing atmosphere, optionally in the presence of a carbon compound.Type: ApplicationFiled: March 1, 2010Publication date: June 21, 2012Inventors: J. Hoekstra, John Wilhelm Geus, L. W. Jenneskens
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Patent number: 8202817Abstract: A nanocarbon aggregate including a graphite aggregate including a graphene sheet having a petal shape and a nanohorn. The petal-shaped graphite aggregate achieves a reduction in the particulate size and a higher dispersibility by allowing the edge of the petal shape to locally absorb a metal, a metal complex and a metal oxide. The nanocarbon aggregate is used for a catalyst support.Type: GrantFiled: January 29, 2008Date of Patent: June 19, 2012Assignee: NEC CorporationInventors: Ryota Yuge, Masako Yudasaka, Sumio Iijima
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Patent number: 8197786Abstract: Porous carbon materials and methods of manufacturing the same are provided. One method includes forming a carbon-metal oxide composite by heating a coordination polymer to form a carbon-metal oxide composite, and then removing the metal oxide from the carbon-metal oxide composite. The porous carbon material has an average pore diameter ranging from about 10 nm to about 100 nm, and a d002 ranging from about 3.35 to 3.50 ?.Type: GrantFiled: September 7, 2007Date of Patent: June 12, 2012Assignee: Samsung SDI Co., Ltd.Inventors: Dong-min Im, Jeong-hee Lee, Yong-nam Ham, Chan-ho Pak
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Publication number: 20120129686Abstract: Catalyst comprising a support and a catalytically active material for use as heterogeneous catalyst for electrochemical reactions, wherein the support is a carbon support having a BET surface area of less than 50 m2/g. The invention further relates to the use of the catalyst as electrode catalyst in a fuel cell.Type: ApplicationFiled: July 28, 2010Publication date: May 24, 2012Applicant: BASF SEInventors: Claudia Querner, Ekkehard Schwab, Oemer Uensal, Sigmar Braeuninger, Thomas Justus Schmidt
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Patent number: 8178466Abstract: The present disclosure provides methods for pre-treating activated carbon before it is used in a dehydrochlorination process. The methods can comprise mixing the activated carbon with an acid, an oxidizing agent in a liquid phase, or an oxidizing agent in a gas phase. Activated carbons undergoing one or more of these methods can exhibit improved stability during the dehydrochlorination process.Type: GrantFiled: January 14, 2011Date of Patent: May 15, 2012Assignee: Honeywell International Inc.Inventors: Haiyou Wang, Hsueh S. Tung
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Publication number: 20120077031Abstract: The present invention relates to a catalyst composition for the synthesis of thin multi-walled carbon nanotube(MWCNT). More particularly, this invention relates to a multi-component metal catalyst composition comprising i) main catalyst of Co and Al, ii) inactive support of Mg and iii) optional co-catalyst at least one selected from Ni, Cr, Mn, Mo, W, Pb, Ti, Sn, or Cu. Further, the present invention affords thin multi-walled carbon nanotube having 5˜20 nm of diameter and 100˜10,000 of aspect ratio in a high yield.Type: ApplicationFiled: July 14, 2010Publication date: March 29, 2012Applicant: KOREA KUMHO PETROCHEMICAL CO., LTD.Inventors: Sang-Hyo RYU, Wan Sung LEE, Youngchan JANG
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Patent number: 8143185Abstract: A photocatalytic metal deposition process and a resulting nanocomposite are described. The nanocomposite includes an electrically conducting carbonaceous material, a photoactive metal oxide and a metal. Metals for deposition include noble metals, metal alloys and other transition metals in which the metal is laid down precisely and in a predetermined fashion on one or more surfaces of a composite. Deposition provides a high performance electrocatalyst for a number of suitable applications.Type: GrantFiled: March 26, 2008Date of Patent: March 27, 2012Assignees: Board of Regents, The University of Texas System, Sid Richardson carbon & Energy Co.Inventors: Krishnan Rajeshwar, Norma Tacconi, Chakkankal R. Chenthamarakshan, Wesley Wampler, Thomas F. Carlson, Wen-Yuan Lin
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Patent number: 8143441Abstract: This invention relates to an improved catalyst, comprising a carbon support having a noble metal at its surface, for use in catalyzing liquid phase oxidation reactions, especially in an acidic oxidative environment and in the presence of solvents, reactants, intermediates, or products which solubilize noble metals; a process for the preparation of the improved catalyst; a liquid phase oxidation process using such a catalyst wherein the catalyst exhibits improved resistance to noble metal leaching, particularly in acidic oxidative environments and in the presence of solvents, reactants, intermediates, or products which solubilize noble metals; and a liquid phase oxidation process in which N-(phosphonomethyl)iminodiacetic acid (i.e., “PMIDA”) or a salt thereof is oxidized to form N-(phosphonomethyl)glycine (i.e., “glyphosate”) or a salt thereof using such a catalyst wherein the oxidation of the formaldehyde and formic acid by-products into carbon dioxide and water is increased.Type: GrantFiled: June 5, 2006Date of Patent: March 27, 2012Assignee: Monsanto Technology LLCInventors: Jerry R. Ebner, Mark A. Leiber, Kam-To Wan, Anthony Woods, Peter E. Rogers
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Publication number: 20120065052Abstract: The invention relates to a process for producing a surface-modified carbon-comprising support, which comprises the following steps: (a) mixing of the carbon-comprising support with at least one metal compound, a carbon- and/or nitrogen-comprising organic substance and optionally a dispersion medium, (b) optionally evaporation of the dispersion medium at a temperature in the range from 40 to 200° C., (c) heating of the mixture to a temperature in the range from 500° C. to 1200° C. to form metal carbides, metal nitrides, metal oxycarbides, metal oxynitrides, metal carboxynitrides and/or metal carbonitrides on the carbon-comprising support. The invention further relates to a use of the surface-modified carbon-comprising support.Type: ApplicationFiled: September 14, 2011Publication date: March 15, 2012Applicant: BASF SEInventors: Bastian EWALD, Claudia Querner
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Publication number: 20120051991Abstract: Sorbent bodies comprising activated carbon, processes for making them, and methods of using them. The sorbent bodies can be used to remove toxic elements from a fluid, such as from a gas stream. For instance, the sorbent bodies may be used to remove elemental mercury or mercury in an oxidized state from a coal combustion flue gas.Type: ApplicationFiled: November 9, 2011Publication date: March 1, 2012Applicant: CORNING INCORPORATEDInventors: Kishor Purushottam Gadkaree, Benedict Yorkeorke Johnson, Pei Qiong Kuang, Anbo Liu, Youchun Shi
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Patent number: 8119555Abstract: The invention provides a method of increasing the mesopore volume of a porous activated carbon, comprising coating a porous activated carbon with a metal oxide or metal oxide precursor to form a treated activated carbon; and calcining the treated activated carbon, in a dry atmosphere, for a time and at a temperature sufficient to increase the mesopore volume of the treated activated carbon. The invention also provides an activated carbon having a total mesopore volume of at least about 0.10 cc/g and less than about 0.25 cc/g, and a percentage of mesopore volume per total pore volume of at least about 15% and less than about 35%. Activated carbon modified according to the invention, cigarette filters incorporating such activated carbon, and smoking articles made with such filters are included in the invention.Type: GrantFiled: November 20, 2008Date of Patent: February 21, 2012Assignee: R. J. Reynolds Tobacco CompanyInventors: Chandra Kumar Banerjee, Stephen Benson Sears, Thaddeus Jude Jackson
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Publication number: 20120041160Abstract: Systems and methods for the maintenance of active chromium-based catalysts and their use in polymerization processes are described. In one embodiment, a system for the introduction of multiple polymerization components to activate a chromium based catalyst within a mix tank is described. Other described features may include materials and methods to purify the liquid medium of a catalyst slurry so that the catalyst slurry maintains a high level of activity. The active chromium-based catalyst may provide polyolefins with a number of desirable properties in a reliable, consistent, and predictable manner.Type: ApplicationFiled: August 11, 2010Publication date: February 16, 2012Applicant: Chevron Phillips Chemical Company LPInventors: Elizabeth A. Benham, Max P. McDaniel, Kathy S. Collins
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Patent number: 8114372Abstract: A hierarchical mesoporous carbon is provided in which a total volume of mesopores of the hierarchical mesoporous carbon is 80% or greater of a total volume of pores of the hierarchical mesoporous carbon; a volume of mesopores with a average diameter greater than 20 nm and no greater than 50 nm is 3% or greater of the total volume of the pores; and a volume of mesopores with a average diameter greater than 2 nm and no greater than 10 nm is 65% or greater of the total volume of the pores. The hierarchical mesoporous carbon, which also contains macropores, has an optimized mesoporous distribution characteristic, and has an increased total volume of pores, thereby having a significantly improved catalytic activity when used as a catalyst support. When such a supported catalyst including the hierarchical mesoporous carbon as a support is used in a fuel cell, supply of fuel and transporting of byproducts are facilitated.Type: GrantFiled: July 7, 2008Date of Patent: February 14, 2012Assignee: Samsung SDI Co., Ltd.Inventors: Chan-ho Pak, Hyuk Chang, Ji-man Kim
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Patent number: 8110521Abstract: The present invention features a method for preparing core-shell nanoparticles supported on carbon. In particular, the present invention features a method for preparing core-shell nanoparticles supported on carbon, including: dispersing core nanoparticle powder supported on carbon in ethanol; adding a metal precursor which forms a shell and hydroquinone thereto; and mixing and reducing the same. Preferably, the disclosed method for preparing core-shell nanoparticles supported on carbon enables coating of transition metal nanoparticles including platinum on the surface of core metal nanoparticles at a monolayer level. Prepared core-shell nanoparticles of the present invention may be useful as catalysts or electrode materials of fuel cells.Type: GrantFiled: April 1, 2010Date of Patent: February 7, 2012Assignees: Hyundai Motor Company, SNU R&DB FoundationInventors: Jae Seung Lee, Yung-Eun Sung, Tae-Yeol Jeon, Hee-Young Park
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Publication number: 20120028169Abstract: The present invention provides a support for an electrode of a polymer electrolyte membrane fuel cell, a fuel cell, and a platinum-supported catalyst, and an electrode using the same. In particular, the present invention provides a method in which linear crystalline carbon nanofibers and nonlinear crystalline carbon particles with increased surface area and improved crystallinity are used to enhance the active site of catalyst particles and ensure the durability of the catalyst by the crystalline carbon materials. The linear crystalline carbon nanofibers are grown to have a predetermined fiber diameter by heat treatment at a high temperature in a gas phase of hydrocarbon in an inert gas atmosphere using an oxide such as Ni, Fe, Mn, etc. as a catalyst. The crystallinity of the linear crystalline carbon nanofibers is also improved by the heat treatment.Type: ApplicationFiled: November 22, 2010Publication date: February 2, 2012Applicants: KIA MOTORS CORPORATION, HYUNDAI MOTOR COMPANYInventors: Bum Wook Roh, Ki Sub Lee
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Publication number: 20120024757Abstract: The present invention relates to a method for forming a catalyst comprising catalytic nanoparticles and a catalyst support, wherein the catalytic nanoparticles are embedded in the catalyst support, comprising forming the catalytic nanoparticles on carbon particle, dispersing the carbon particle in a solution comprising precursors of the catalyst support to form a suspension, heating the suspension to form a gel, subjecting the gel to incineration to form a powder, and sintering the powder to form the catalyst.Type: ApplicationFiled: July 13, 2011Publication date: February 2, 2012Inventors: Zetao Xia, Liang Hong, Wei Wang, Zhao Lin Liu
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Publication number: 20120016171Abstract: The present invention provides a process for the manufacture of an efficient and robust catalyst for the oxidative dehydrogenation of paraffins to olefins, preferably lower C2-4 paraffins. The present invention provides a process for the preparation of an oxidative dehydrogenation catalyst of C2-4 paraffins to olefins comprising comminuting: from 10 to 99 weight % of a mixed oxide catalyst of the formula VxMoyNbzTemMenOp, wherein Me is a metal selected from the group consisting of Ta, Ti, W, Hf, Zr, Sb and mixtures thereof; with from 90 to 1 weight % of an inert matrix selected from oxides of titanium, zirconia, aluminum, magnesium, yttria, lantana, silica and their mixed compositions or a carbon matrix to produce particles having a size from 1 to 100 microns and forming the resulting particles into pellets having a size from 0.1 to 2 mm.Type: ApplicationFiled: February 22, 2010Publication date: January 19, 2012Applicant: Nova Chemicals (International) S.A.Inventors: Leonid Modestovich Kustov, Aleksey Victorovich Kucherov, Elena Dmitrievna Finashina, Tatyana Nikolaevna Kucherova, Vera Ilynichna Isaeva, Andrzej Krzywicki, Haiyong Cai
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Publication number: 20120015284Abstract: A catalyst support for an electrochemical system includes a high surface area carbon core structure and a surface modifier modifying the surface of the carbon core structure. The surface modifier includes boron-doped diamond (BDD) and a high surface area refractory material. The high surface area refractory material includes metal oxides, metal phosphates, metal borides, metal nitrides, metal silicides, metal carbides and combinations thereof.Type: ApplicationFiled: February 10, 2009Publication date: January 19, 2012Applicant: UTC POWER CORPORATIONInventors: Belabbes Merzougui, Lesia V. Protsailo, Minhua Shao
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Patent number: 8093174Abstract: A carbon nanohorn (CNH) is oxidized to make an opening in the side of the CNH. A substance to be included, e.g., a metal, is introduced through the opening. The inclusion substance is moved to a tip part of the carbon nanohorn through heat treatment in vacuum or an inert gas. The CNH is further heat treated in an atmosphere containing oxygen in a low concentration to remove the carbon layer in the tip through catalysis of the inclusion substance. This exposes the inclusion substance. If the inclusion substance is a metal which is not moved to a tip part by the heat treatment in vacuum or an inert gas, the carbon part surrounding the fine catalyst particle is specifically burned by a heat treatment in an low oxygen concentration atmosphere, while utilizing the catalysis. Thus, the fine catalyst particle is fixed to the tip part of the CNH.Type: GrantFiled: January 16, 2008Date of Patent: January 10, 2012Assignee: NEC CorporationInventors: Ryota Yuge, Masako Yudasaka, Sumio Iijima
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Patent number: 8088711Abstract: The invention relates to a process and catalyst for the oxidative desulfurization of hydrocarbonaceous oil. In one aspect, solid carbon materials are provided having stable sulfur trioxide and nitrogen dioxide oxidative species on the surface thereof. Such materials are useful in the production of low sulfur hydrocarbon feedstocks and in the removal of refractory sulfur compounds.Type: GrantFiled: November 24, 2008Date of Patent: January 3, 2012Assignee: Saudi Arabian Oil CompanyInventor: Ki-Hyouk Choi
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Publication number: 20110318662Abstract: The present disclosure relates to a catalyst including platinum phosphide having a cubic structure, a method of making the catalyst, and a fuel cell utilizing the catalyst. The present disclosure also relates to method of making electrical power utilizing a PEMFC incorporating the catalyst. Also disclosed herein is a catalyst including a platinum complex wherein platinum is complexed with a nonmetal or metalloid. The catalyst with the platinum complex can exhibit good electro-chemically active properties.Type: ApplicationFiled: March 12, 2010Publication date: December 29, 2011Applicants: FORD MOTOR COMPANY, DAIMLER AGInventors: Natalia Kremliakova, Scott McDermid, Stephen Campbell
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Publication number: 20110312488Abstract: A catalyst system for generating at least one polyol from a feedstock comprising saccharide is disclosed. Generating the polyol involves, contacting hydrogen, water, and a feedstock comprising saccharide, with a catalyst system to generate an effluent stream comprising at least one polyol and recovering the polyol from the effluent stream. The catalyst system comprises at least one metal component with an oxidation state greater than or equal to 2+.Type: ApplicationFiled: July 28, 2011Publication date: December 22, 2011Applicant: UOP LLCInventors: John Q. Chen, Tom N. Kalnes, Joseph A. Kocal
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Patent number: 8071500Abstract: A catalyst for the oxidation of heavy metal contaminants, especially mercury (Hg), in an effluent stream is presented. The catalyst facilitates removal of mercury through the oxidation of elemental Hg into mercury (II) moieties. The active component of the catalyst is partially combusted coal, or “Thief” carbon, which can be pre-treated with a halogen. An untreated Thief carbon catalyst can be self-promoting in the presence of an effluent gas streams entrained with a halogen.Type: GrantFiled: July 13, 2010Date of Patent: December 6, 2011Assignee: The United States of America as represented by the United States Department of EnergyInventors: Evan J. Granite, Henry W. Pennline
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Patent number: 8058201Abstract: A pressed sorbent form includes a sorbent and a binder. The sorbent is chosen from the group including silica gel, molecular sieve, activated carbon, and clay. The binder is powdered ethyl vinyl acetate.Type: GrantFiled: November 16, 2007Date of Patent: November 15, 2011Assignee: Multisorb Technologies, Inc.Inventors: Jim Martinez, Louis Patrone, Stanislav E. Solovyov, Jim Zdonczyk
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Publication number: 20110268647Abstract: Two-dimensional nanomaterials are produced in a process comprising the steps of (a) providing (a1) a mixture comprising graphene oxide particles, water and at least one cationic surfactant and/or nonionic surfactant or (a2) a mixture comprising graphene particles, at least one solvent useful for solution exfoliation of graphite and at least one cationic surfactant and/or nonionic surfactant, (b) adding at least one sol precursor compound to the mixture from step (a), (c) reacting the mixture from step (b) in a sol/gel process to form gel from the at least one sol precursor compound on the graphene oxide particles or, respectively, the graphene particles, (d) removing the at least one surfactant, and (e) optionally heating the gel-coated graphene oxide particles for at least 1 min to at least 500° C. under inert gas atmosphere to reduce the graphene oxide to graphene.Type: ApplicationFiled: April 21, 2011Publication date: November 3, 2011Applicants: Max-Planck-Gesellschaft zur Foerd. der Wisse. e.V., BASF SEInventors: Sorin IVANOVICI, Shubin YANG, Xinliang FENG, Klaus MÜLLEN