Of Group I (i.e., Alkali, Ag, Au Or Cu) Patents (Class 502/344)
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Patent number: 8557729Abstract: A catalyst unit is described in the form of a cylinder having a length C and diameter D, which has two or more flutes running along its length, wherein said cylinder has domed ends of lengths A and B, such that (A+B+C)/D is in the range 0.50 to 2.00, and (A+B)/C is in the range 0.40 to 5.00. The catalyst may be used particularly in reactions where hydrogen is a reactant such as hydroprocessing, hydrogenation, water-gas shift reactions, methanation, hydrocarbon synthesis by the Fischer-Tropsch reaction, methanol synthesis and ammonia synthesis.Type: GrantFiled: August 24, 2009Date of Patent: October 15, 2013Assignee: Johnson Matthey PLCInventors: Daniel Lee Cairns, Mileta Babovic, Terence James Fitzpatrick, Elizabeth Margaret Holt, Colin William Park, William Maurice Sengelow, Edmund Hugh Stitt
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Patent number: 8557728Abstract: A catalyst unit is described in the form of a cylinder having a length C and diameter D, which has one or more holes extending therethrough, wherein said cylinder has domed ends of lengths A and B, such that (A+B+C)/D is in the range 0.50 to 2.00, and (A+B)/C is in the range 0.40 to 5.00. The catalyst or catalyst unit preferably has one or more flutes miming along its length. The catalyst may be used particularly in steam reforming reactors.Type: GrantFiled: August 24, 2009Date of Patent: October 15, 2013Assignee: Johnson Matthey PLCInventors: David James Birdsall, Mileta Babovic, Mikael Per Uno Carlsson, Samuel Arthur French, Michiel Nijemeisland, William Maurice Sengelow, Edmund Hugh Stitt
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Publication number: 20130260282Abstract: Metal nanotubes are provided comprising a composition having formula (M1)NT: wherein M1=Pt, Pd, or Au; wherein the nanotubes have: a wall thickness of from 2 to 12 nm; an outer diameter of from 30 to 100 nm; and a length of from 5 to 30 ?m. Metal nanowires are also provided comprising a composition having formula (M2)NW: wherein M2=Ag or Cu; wherein when M2=Ag, the nanowires have a diameter of from 25 to 60 nm and a length of from 1 to 10 ?m; and when M2=Cu, the nanowires have a diameter of from 50 to 100 nm and a length of from 10 to 50 ?m. In other embodiments, fuel cells are also described having at least one anode; at least one cathode; an electrolyte membrane between the at least one anode and at least one cathode; and a catalyst comprising either of the above described metal nanotubes or nanowires.Type: ApplicationFiled: November 8, 2011Publication date: October 3, 2013Inventors: Yushan Yan, Shaun Alia
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Patent number: 8535632Abstract: The present invention relates to a catalyst-containing nanofiber composition, comprising a ceramic nanofiber having a plurality of metal catalysts wherein the metal catalysts exist as dispersed particles partially embedded in the nanofiber and cover from about 1% to about 90% of the surface area of the ceramic nanofiber.Type: GrantFiled: March 19, 2009Date of Patent: September 17, 2013Assignee: The University of AkronInventors: George G. Chase, George R Newkome, Sphurti Bhargava, Soo-Jin Park, Sneha Swaminathan
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Publication number: 20130237729Abstract: A composition comprising an extruded inorganic support comprising an oxide of a metal or metalloid, and at least one catalytically active metal, wherein the extruded inorganic support has pores, a total pore volume, and a pore size distribution, wherein the pore size distribution displays at least two peaks of pore diameters, each peak having a maximum, wherein a first peak has a first maximum of pore diameters of equal to or greater than about 120 nm and a second peak has a second maximum of pore diameters of less than about 120 nm, and wherein greater than or equal to about 5% of a total pore volume of the extruded inorganic support is contained within the first peak of pore diameters.Type: ApplicationFiled: March 7, 2012Publication date: September 12, 2013Applicant: CHEVRON PHILLIPS CHEMICAL COMPANY LPInventors: Tin-Tack Peter Cheung, Joseph Bergmeister, III, Stephen L. Kelly
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Patent number: 8530372Abstract: Catalysts, systems and methods for abating emissions in an exhaust stream are provided. Systems comprising a transition metal oxide stabilized oxygen storage catalyst are described. The emissions treatment system is advantageously used for the treatment of exhaust streams from lean burn engines including diesel engines and lean burn gasoline engines.Type: GrantFiled: July 21, 2010Date of Patent: September 10, 2013Assignee: BASF CorporationInventors: Tian Luo, Michel Deeba
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Patent number: 8519017Abstract: A catalyst precursor resin composition includes an organic polymer resin; a fluorinated-organic complex of silver ion; a monomer having multifunctional ethylene-unsaturated bonds; a photoinitiator; and an organic solvent. The metallic pattern is formed by forming catalyst pattern on a base using the catalyst precursor resin composition reducing the formed catalyst pattern, and electroless plating the reduced catalyst pattern. In the case of forming metallic pattern using the catalyst precursor resin composition, a compatibility of catalyst is good enough not to make precipitation, chemical resistance and adhesive force of the formed catalyst layer are good, catalyst loss is reduced during wet process such as development or plating process, depositing speed is improved, and thus a metallic pattern having good homogeneous and micro pattern property may be formed after electroless plating.Type: GrantFiled: May 15, 2008Date of Patent: August 27, 2013Assignee: LG Chem, Ltd.Inventors: Min Kyoun Kim, Min Jin Ko, Sang Chul Lee, Jeong Im Roh
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Patent number: 8518854Abstract: Heterogeneous catalyst systems, methods of making these systems, and methods of using these systems, wherein catalytically active gold is deposited onto composite support media. The composite support media is formed by providing nanoporous material on at least a portion of the surfaces of carbonaceous host material. In representative embodiments, relatively fine, nanoporous guest particles are coated or otherwise provided on surfaces of relatively coarser activated carbon particles. Catalytically active gold may be deposited onto one or both of the guest or host materials either before or after the guest and host materials are combined to from the composite host material. PVD is the preferred catalyst system of depositing gold.Type: GrantFiled: October 12, 2012Date of Patent: August 27, 2013Assignee: 3M Innovative Properties CompanyInventors: John T. Brady, Marvin E. Jones, Larry A. Brey, Gina M. Buccellato, Craig S. Chamberlain, John S. Huberty, Allen R. Siedle, Thomas E. Wood, Badri Veeraraghavan, Duane D. Fansler
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Publication number: 20130217569Abstract: A method of forming a Fischer-Tropsch catalyst by providing at least one metal nitrate solution, combining each of the at least one metal nitrate solutions with a precipitating agent whereby at least one catalyst precipitate is formed, and incorporating a strong base during precipitation, subsequent precipitation, or both during and subsequent precipitation. Catalysts produced via the disclosed method are also provided.Type: ApplicationFiled: November 15, 2011Publication date: August 22, 2013Applicant: RENTECH, INC.Inventors: Deena Ferdous, Belma Demirel
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Patent number: 8507403Abstract: A process is described for producing a powder batch comprises a plurality of particles, wherein the particles include (a) a first catalytically active component comprising at least one transition metal or a compound thereof; (b) a second component different from said first component and capable of removing oxygen from, or releasing oxygen to, an exhaust gas stream; and (c) a third component different from said first and second components and comprising a refractory support. The process comprises providing a precursor medium comprising a liquid vehicle and a precursor to al least one of said components (a) to (c) and heating droplets of said precursor medium carried in a gas stream to remove at least part of the liquid vehicle and chemically convert said precursor to said at least one component.Type: GrantFiled: June 27, 2008Date of Patent: August 13, 2013Assignee: Cabot CorporationInventors: Miodrag Oljaca, Toivo T. Kodas, Ranko P. Bontchev, Klaus Kunze, Kenneth C. Koehlert
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Patent number: 8507404Abstract: Provided are improved regenerable SOx trap formulations for on-board vehicle applications. The regenerable sulfur trap formulations reduce the rate of sulfur poisoning of a downstream nitrogen storage reduction (NSR) catalyst trap in exhaust gas cleaning systems for combustion engines by adsorbing SOx as metal sulfate under lean exhaust conditions and desorbing the accumulated SOx under rich exhaust conditions. The regenerable sulfur oxides trap catalyst compositions include a metal (M) oxide, wherein M is selected from Cu, Fe, Mn, Ag, Co and combinations thereof and a metal (M)-La—Zr oxide, wherein M is selected from Cu, Fe, Mn, Ag, Co and combinations thereof. In addition, provided are improved exhaust gas cleaning systems and methods for treating exhaust gas from a combustion source that include a hydrogen generation system, a regenerable sulfur oxides trap, and a regenerable nitrogen storage reduction (NSR) catalyst trap.Type: GrantFiled: April 10, 2008Date of Patent: August 13, 2013Assignee: ExxonMobil Research and Engineering CompanyInventors: El-Mekki El-Malki, Walter Weissman, Paul J. Polini
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Patent number: 8501036Abstract: The invention relates to Group 1 metal/silica gel compositions comprising silica gel and an alkali metal or alloy, wherein Group 1 metals or alloys are absorbed into the silica gel pores. The invention relates to producing hydrogen gas comprising contacting a Group 1 metal/silica gel composition with water, and further relates to an alkali metal reduction of an organic compound, the improvement comprising contacting the organic compound with a Group 1 metal/silica gel composition. In these embodiments, the Group 1 metal/silica gel composition reacts with dry O2. The invention also relates to producing hydrogen gas comprising contacting a Group 1 metal/silica gel composition with water, and further relates to an alkali metal reduction of an organic compound, the improvement comprising contacting the organic compound with a Group 1 metal/silica gel composition. In these embodiments, the Group 1 metal/silica gel composition produced does not react with dry O2.Type: GrantFiled: August 4, 2011Date of Patent: August 6, 2013Assignees: SiGNa Chemistry, Inc., Board of Trustees of Michigan State UniversityInventors: Michael Lefenfeld, James L. Dye
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Patent number: 8502007Abstract: The invention provides processes for generating a methane-enriched gas from a gas mixture comprising carbon monoxide and hydrogen such as gas streams generated by gasification of an alkali metal catalyst-loaded carbonaceous feedstock, and a char methanation catalyst useful in such processes.Type: GrantFiled: September 18, 2009Date of Patent: August 6, 2013Assignee: Greatpoint Energy, Inc.Inventors: Edwin J. Hippo, Vincent G. Reiling, Earl T. Robinson, Pattabhi K. Raman, Jeffery Smith, Charles Mims, Nicholas Charles Nahas
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Publication number: 20130195741Abstract: Catalyzed soot filters comprising a wall flow monolith having a washcoat comprising an alkali base metal composite disposed on the monolith. Methods of manufacturing and using catalyzed soot filters and diesel engine exhaust emission treatment systems are also disclosed.Type: ApplicationFiled: January 30, 2012Publication date: August 1, 2013Applicant: BASF CorporationInventors: Michel Deeba, M. Shahjahan Kazi
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Publication number: 20130184146Abstract: The present disclosure relates to a surface structure control and preparation process for a metal nanocatalyst involving a metal nanocatalyst. The present disclosure provides a surface structure control and continuous preparation system for a metal nanocatalyst, a metal nanocatalyst having an open surface structure and high surface energy, and a surface structure control and a preparation process thereof. The system is provided with a nucleation electrolytic cell, a distribution valve, at least two growth electrolytic cells, with two ends of the distribution valve being connected to an output port of the nucleation electrolytic cell and to input port of all the growth electrolytic cells, respectively. The metal nanocatalyst having an open surface structure is a single metal nanoscale crystal and has a high density of terrace atoms or active sites on the surface thereof.Type: ApplicationFiled: June 13, 2011Publication date: July 18, 2013Applicant: XIAMEN UNIVERSITYInventors: Shi-gang Sun, Rui Huang, Sheng-pei Chen
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Publication number: 20130180932Abstract: Photocatalyst compositions and elements exhibiting desired photocatalytic activity levels and transparency.Type: ApplicationFiled: January 10, 2013Publication date: July 18, 2013Applicant: NITTO DENKO CORPORATIONInventor: Nitto Denko Corporation
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Patent number: 8486853Abstract: An exhaust gas purifying catalyst (1) according to the present invention includes noble metal particles (6), a first compound (7) supporting the noble metal particles (6), and a second compound (9) disposed not in contact with the noble metal particles (6) and having an oxygen storage capacity. An average distance between the first compound (7) and the second compound (9) is between 5 nm and 300 nm.Type: GrantFiled: March 4, 2010Date of Patent: July 16, 2013Assignee: Nissan Motor Co., Ltd.Inventors: Kazuyuki Shiratori, Katsuo Suga, Masanori Nakamura, Hironori Wakamatsu, Hiroto Kikuchi, Tetsuro Naito, Jun Ikezawa
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Publication number: 20130172175Abstract: Disclosed herein are photocatalyst powder and a production method thereof, and by having photocatalyst particles corn binded without reduction of a specific surface area, the reduction of the specific surface area is nearly none while the pores are developed, as well as the absorption rate with respect to light is superior, the method of producing photocatalyst powder includes forming initial photocatalyst powder by molding nanoparticles of photocatalyst substance into a certain shape through extrusion, and splitting the initial photocatalyst powder into a plurality of photocatalyst powder by injecting the initial photocatalyst powder into a predetermined splitting solution, the initial photocatalyst powder being split into the plurality of photocatalyst powder by the predetermined spliting solution.Type: ApplicationFiled: December 28, 2012Publication date: July 4, 2013Applicant: SAMSUNG ELECTRONICS CO., LTD.Inventor: SAMSUNG ELECTRONICS CO., LTD.
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Patent number: 8475752Abstract: The lean NOx trap catalyst composition of the present invention comprises distinct layers, or zone configuration or multi-brick arrangement. The top layer, front zone or front brick is free of any alkali or alkaline earth NOx trapping components. The under layer, rear zone or rear brick may contain any desirable NOx trapping component in contact with a precious metals group catalyst (e.g., Pt). Catalysts of this invention show wide temperature operation window with superior low temperature performance.Type: GrantFiled: June 23, 2009Date of Patent: July 2, 2013Assignee: BASF CorporationInventor: Chung Z. Wan
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Publication number: 20130165728Abstract: Nanowires useful as heterogeneous catalysts are provided. The nanowire catalysts are useful in a variety of catalytic reactions, for example, the oxidative coupling of methane to C2 hydrocarbons. Related methods for use and manufacture of the same are also disclosed.Type: ApplicationFiled: November 29, 2012Publication date: June 27, 2013Applicant: SILURIA TECHNOLOGIES, INC.Inventor: Siluria Technologies, Inc.
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Publication number: 20130157203Abstract: A gas fired catalytic heater is provided that foregoes the need for an electrical heating element to provide the activation energy for the hydrocarbon catalyst pad. An alcohol self-igniting catalyst pad is used to provide the activation energy to the hydrocarbon catalyst pad thereby removing dependence of the heater on an outside electrical energy source to initiate start-up of the heater. The catalyst pad includes a flexible wash coat; a noble metal dispersed on the wash coat; an anti-sintering element saturating the wash coat; and a catalyst promoter saturating the wash coat.Type: ApplicationFiled: February 15, 2013Publication date: June 20, 2013Applicant: CC/ Thermal Technologies Inc.Inventor: CC/ Thermal Technologies Inc.
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Publication number: 20130157844Abstract: An object is to maintain an effect of enhancing activity of noble metal particles by transition metal without increasing production cost and an environmental load. An exhaust gas purifying catalyst 1 is composed of: noble metal particles 2; first compounds 3 which contact the noble metal particles 2 and suppress movement of the noble metal particles 2; and second compounds 4 which contain the noble metal particles 2 and the first compounds 3, suppress the movement of the noble metal particles 2, and suppress coagulation of the first compounds 3 following mutual contact of the first compounds 3, wherein the first compounds 3 support the noble metal particles 2, and simplexes or aggregates of the first compounds 3 supporting the noble metal particles 2 are included in section partitioned by the second compounds 4.Type: ApplicationFiled: February 19, 2013Publication date: June 20, 2013Inventors: Masanori NAKAMURA, Katsuo Suga, Hironori Wakamatsu, Kazuyuki Shiratori, Hirofumi Yasuda, Makoto Aoyama, Jun Ikezawa
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Patent number: 8466082Abstract: A shell catalyst for the preparation of vinyl acetate monomer, comprising an oxidic porous catalyst support with an outer shell, containing metallic Pd and Au, wherein the framework structure of the porous catalyst support contains hafnium oxide units. This shell catalyst is suitable for the preparation of VAM and is characterized by a relatively high activity and VAM selectivity and maintains this activity and selectivity over relatively long service lives. Also, processes for the preparation and use of the shell catalyst.Type: GrantFiled: May 30, 2008Date of Patent: June 18, 2013Assignee: Sued-Chemie IP GmbH & Co. KGInventors: Alfred Hagemeyer, Gerhard Mestl, Peter Scheck
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Patent number: 8461373Abstract: Disclosed is a catalyst for use in production of carboxylic acid ester by reacting (a) aldehyde and alcohol, or (b) one or more types of alcohols, in the presence of oxygen; wherein oxidized nickel and X (wherein X represents at least one element selected from the group consisting of nickel, palladium, platinum, ruthenium, gold, silver and copper) are loaded onto a support within the range of the atomic ratio of Ni/(Ni+X) of from 0.20 to 0.99.Type: GrantFiled: July 31, 2008Date of Patent: June 11, 2013Assignee: Asahi Kasei Chemicals CorporationInventors: Ken Suzuki, Tatsuo Yamaguchi
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Patent number: 8450235Abstract: A supported composite particle material comprises: a composite particle formed of an oxidized nickel and X (wherein X represents at least one of elements selected from the group consisting of nickel, palladium, platinum, ruthenium, gold, silver and copper); and a support on which the composite particle is supported, the supported composite particle material having a supported layer in which the composite particle is localized.Type: GrantFiled: October 23, 2008Date of Patent: May 28, 2013Assignee: Asahi Kasei Chemicals CorporationInventors: Ken Suzuki, Tatsuo Yamaguchi
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Patent number: 8450236Abstract: A process for making a catalyst having precious metal nanoparticles deposited on a support includes first providing an aqueous dispersion of support particles. A pre-treatment slurry is prepared by mixing the aqueous dispersion of support particles with a water-soluble precious metal precursor and a reducing agent. The pre-treatment slurry is hydrothermally treated at a temperature in the range of from about 40° C. to about 220° C. for a time sufficient to deposit precious metal nanoparticles on the surface of the support particles, the precious metal nanoparticles having an average particle size less about 50 nm.Type: GrantFiled: April 13, 2010Date of Patent: May 28, 2013Assignee: Cristal USA Inc.Inventors: Guoyi Fu, Mark B. Watson, Charles B. Muehlberger
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Patent number: 8435918Abstract: Ceria-coated aerogels can include an aerogel support material having a stabilized ceria coating thereon. The ceria coating can be formed by solution or vapor deposition of alcogels or aerogels. Additional catalytic metal species can also be incorporated into the coating to form multi-metallic compounds having improved catalytic activity. Further, the ceria coated aerogels retain high surface areas at elevated temperatures. Thus, improvements in catalytic activity and thermal stability can be achieved using these ceria-coated composite aerogels.Type: GrantFiled: March 15, 2007Date of Patent: May 7, 2013Assignee: University of Utah Research FoundationInventors: Edward M. Eyring, Richard D. Ernst, Gregory C. Turpin, Brian C. Dunn
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Patent number: 8435921Abstract: A method for preparing oxidation catalyst comprising cerium oxide and a metal selected from the group consisting of gold, platinum palladium, tin, ruthenium, or nickel by sputtering cerium oxide and a metal from a target to a substrate wherein the cerium oxide and a metal material are sputtered to the substrate concurrently from at least one target under an argon atmosphere to form a layer of cerium oxide including dispersed atoms of the metal Specific Au—CeO2 and Pt—CeO2 catalysts are prepared by using this method.Type: GrantFiled: October 16, 2009Date of Patent: May 7, 2013Assignee: Univerzita Karlova V PrazeInventor: Vladimir Matolin
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Publication number: 20130082009Abstract: There is described a photocatalyst composition of matter comprising a support material. A surface of the support material configured to comprise: (i) a first catalytic material for catalyzing the conversion of H2O to H2 and O2, and (ii) a second catalytic material catalyzing reaction of hydrogen with a target compound. The photocatalyst composition of matter can be used to treat an aqueous fluid containing a target chemical compound, for example, by a process comprising the steps of: (i) contacting the aqueous fluid with the above-mentioned photocatalyst composition of matter; (ii) contacting the aqueous fluid with radiation during Step (i); (iii) catalyzing the conversion of water in the aqueous fluid to H2 and O2 with the first catalytic material; and (iv) catalyzing reaction of the target chemical compound in the aqueous fluid with hydrogen from Step (iii) in the presence of the second catalytic material to produce a modified chemical compound.Type: ApplicationFiled: February 22, 2011Publication date: April 4, 2013Applicant: Trojan TechnologiesInventors: William O'Keefe, Michael Sasges
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Patent number: 8410014Abstract: Especially physically stable metal oxide catalyst supports are prepared by suspending a metal oxide in a continuous phase, activating by fine dispersion, coagulation to a viscoelastic mass, shaping, drying, and calcining. The catalyst support thus prepared may be treated with catalytic agents to produce supported catalysts for olefin oxidation.Type: GrantFiled: December 6, 2007Date of Patent: April 2, 2013Assignee: Wacker Chemie AGInventors: Roland Heidenreich, Hans-Jurgen Eberle, Johann Weis
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Patent number: 8399376Abstract: The invention relates to a particle blend comprising mainly or consisting of an oxide phase of the pseudo-brookite type comprising at least titanium and aluminum, said blend being obtained from at least two particle size fractions, namely a coarse particle size fraction, the median diameter d50 of which is greater than 12 microns, and a fine particle size fraction, the median diameter d50 of which is between 0.5 and 3 microns, the mass ratio of said coarse fraction to said fine fraction being between 1.5 and 20, limits inclusive, and the ratio of the median diameter of the coarse fraction to that of the fine fraction being greater than 12.Type: GrantFiled: July 2, 2009Date of Patent: March 19, 2013Assignee: Saint-Gobain Centre de Recherches et D'etudes EuropeenInventors: Carine Dien-Barataud, Matthias Schumann
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Patent number: 8398393Abstract: A gas fired catalytic heater is provided that foregoes the need for an electrical heating element to provide the activation energy for the hydrocarbon catalyst pad. An alcohol self-igniting catalyst pad is used to provide the activation energy to the hydrocarbon catalyst pad thereby removing dependence of the heater on an outside electrical energy source to initiate start-up of the heater. The catalyst pad includes a flexible wash coat; a noble metal dispersed on the wash coat; an anti-sintering element saturating the wash coat; and a catalyst promoter saturating the wash coat.Type: GrantFiled: November 20, 2009Date of Patent: March 19, 2013Assignee: CCI Thermal Technologies Inc.Inventors: Jarek Szynkarczuk, Kowlasar Misir, Harold A. Roozen
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Patent number: 8389175Abstract: A fuel cell (70) having an anode (72), a cathode (78) and an electrolyte (76) between the anode (72) and the cathode (78) includes a cathode catalyst (80) formed of a plurality of nanoparticles. Each nanoparticle (20) has a plurality of terraces (26) formed of platinum surface atoms (14), and a plurality of edge (28) and corner regions (29) formed of atoms from a second metal (30)—The cathode catalyst may be formed by combining a platinum nanoparticle with a metal salt in a solution. Ions from the second metal react with platinum and replace platinum atoms on the nanoparticle. The second metal atoms at the corner and edge regions of the nanoparticle, as well as at any surface defects, result in a more stable catalyst structure. In some embodiments, the fuel cell (70) is a proton exchange membrane fuel cell and the nanoparticles are tetrahedron-shaped. In some embodiments, the fuel cell (70) is a phosphoric acid fuel cell and the nanoparticles are cubic-shaped.Type: GrantFiled: May 16, 2008Date of Patent: March 5, 2013Assignee: UTC Power CorporationInventors: Minhua Shao, Belabbes Merzougui, Patrick L. Hagans, Susanne M. Opalka
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Publication number: 20130045858Abstract: A supported oxidation catalyst includes a support having a metal oxide or metal salt, and mixed metal particles thereon. The mixed metal particles include first particles including a palladium compound, and second particles including a precious metal group (PMG) metal or PMG metal compound, wherein the PMG metal is not palladium. The oxidation catalyst may also be used as a gas sensor.Type: ApplicationFiled: August 17, 2012Publication date: February 21, 2013Applicant: University of Central Florida Research Foundation, Inc.Inventor: Nahid Mohajeri
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Publication number: 20130040806Abstract: A catalyst for the electrolysis of water molecules and hydrocarbons, the catalyst including catalytic groups comprising A1-xB2?yB?yO4 spinels having a cubical M4O4 core, wherein A is Li or Na, B and B? are independently any transition metal or main group metal, M is B, B?, or both, x is a number from 0 to 1, and y is a number from 0 to 2. In photo-electrolytic applications, a plurality of catalytic groups are supported on a conductive support substrate capable of incorporating water molecules. At least some of the catalytic groups, supported by the support substrate, are able to catalytically interact with water molecules incorporated into the support substrate. The catalyst can also be used as part of a photo-electrochemical cell for the generation of electrical energy.Type: ApplicationFiled: June 24, 2011Publication date: February 14, 2013Applicant: RUTGERS, THE STATE UNIVERSITY OF NEW JERSEYInventors: G. Charles Dismukes, Martha Greenblatt
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Publication number: 20130029842Abstract: The present invention provides core-shell type metal nanoparticles having a high surface coverage of the core portion with the shell portion, and a method for producing the same. Disclosed is core-shell type metal nanoparticles comprising a core portion comprising a core metal material and a shell portion covering the core portion, wherein the core portion substantially has no {100 } plane of the core metal material on the surface thereof.Type: ApplicationFiled: April 7, 2010Publication date: January 31, 2013Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHAInventors: Hiroko Kimura, Naoki Takehiro, Koshi Sekizawa, Atsuo Iio, Tatsuya Arai
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Patent number: 8361924Abstract: Disclosed herein is fine particles of core-shell structure, each particle being composed of a core particle which is formed from a first material and has the face-centered cubic crystal structure and a shell layer which is formed from a second material differing from the first material on the surface of the core particle and has the face-centered cubic crystal structure, the fine particles containing particles which are multiply twinned fine particles and are surrounded by the {111} crystal plane.Type: GrantFiled: August 2, 2011Date of Patent: January 29, 2013Assignee: Sony CorporationInventors: Shinji Tanaka, Shuji Goto, Shigetaka Tomiya
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Publication number: 20130023404Abstract: Catalyst mixtures include at least one Catalytically Active Element and, as a separate constituent, one Helper Catalyst. The catalysts can be used to increase the rate, modify the selectivity or lower the overpotential of chemical reactions. These catalysts are useful for a variety of chemical reactions including, in particular, the electrochemical conversion of CO2. Chemical processes employing these catalysts produce CO, OH?, HCO?, H2CO, (HCO2)?, H2CO2, CH3OH, CH4, C2H4, CH3CH2OH, CH3COO?, CH3COOH, C2H6, O2, H2, (COOH)2, or (COO?)2. Devices using the catalysts include, for example, a CO2 sensor.Type: ApplicationFiled: September 25, 2012Publication date: January 24, 2013Applicant: DIOXIDE MATERIALS, INC.Inventor: Dioxide Materials, Inc.
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Patent number: 8357625Abstract: An object of the present invention is to provide a catalyst exhibiting excellent performance particularly in partial oxidation reaction. Another object is to provide a method for efficiently producing carboxylic acid or carboxylic anhydride through vapor-phase partial oxidation of an organic compound by use of an oxygen-containing gas in the presence of the catalyst. The catalyst contains (1) diamond; (2) at least one species selected from among Group 5 transition element oxides, collectively called oxide A; and (3) at least one species selected from among Group 4 transition element oxides, collectively called oxide B. The method for producing a carboxylic acid or a carboxylic anhydride includes subjecting an organic compound to vapor phase partial oxidation by use of an oxygen-containing gas in the presence of the catalyst, wherein the organic compound is an aromatic compound having one or more substituents in a molecule thereof, the substituents each including a carbon atom bonded to an aromatic ring.Type: GrantFiled: June 18, 2009Date of Patent: January 22, 2013Assignee: Mitsubishi Gas Chemical Company, Inc.Inventor: Atsushi Okamoto
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Patent number: 8356475Abstract: Described is a method of slowly releasing a catalyst for, inter alia, the purpose of soot oxidation in a particulate filter. An example method includes incorporating an alkali metal oxide in a glass. Slow leaching of the alkali from the glass provides a means to gradually deliver the catalyst over extended periods. Additionally, the example method includes increasing the amount of alkaline metal ions that may be leached from the glass.Type: GrantFiled: January 28, 2008Date of Patent: January 22, 2013Assignee: University of Notre Dame Du LacInventors: Paul J. McGinn, Hongmei An
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Patent number: 8344184Abstract: Improved methods of introducing promoters to catalysts are described. The present invention provides a convenient method of uniformly distributing a catalyst promoter, to provide for intimate contact between the promoter and the active catalyst sites. This intimate contact can enhance the activity and/or product selectivity of the promoted catalyst. In some embodiments, the method includes reacting an alkali metal with an alcohol in a non-aqueous medium, contacting the resulting solution with a starting catalyst, and depositing the alkali metal onto the starting catalyst to form an alkali-promoted catalyst.Type: GrantFiled: December 9, 2009Date of Patent: January 1, 2013Assignee: Albemarle CorporationInventor: Ronald C. Stites
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Publication number: 20120329644Abstract: A catalyst composition, a method of preparation of catalyst composition, a catalytic reduction system including the catalyst composition and a system using the catalytic reduction system are provided. The catalyst composition includes a templated amorphous metal oxide substrate, a catalyst material, and a sulfur scavenger material. The catalyst material includes a catalyst metal disposed on the templated metal oxide substrate and the sulfur scavenger includes an alkali metal.Type: ApplicationFiled: June 21, 2011Publication date: December 27, 2012Applicant: GENERAL ELECTRIC COMPANYInventors: Oltea Puica Siclovan, Daniel George Norton, Larry Neil Lewis, Dan Hancu, Xiaoying Bao, Robert Burch, Christopher Hardacre, Sarayute Chansai
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Publication number: 20120325226Abstract: A low sidestream smoke cigarette comprises a conventional tobacco rod, and a combustible treatment paper having a sidestream smoke treatment composition. The treatment composition comprises in combination, an oxygen storage and donor metal oxide oxidation catalyst and an essentially non-combustible finely divided porous particulate adjunct for said catalyst.Type: ApplicationFiled: August 24, 2012Publication date: December 27, 2012Applicant: ROTHMANS, BENSON & HEDGES, INC.Inventors: Stanislav M. Snaidr, E. Robert Becker
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Publication number: 20120329643Abstract: The noble metal fine particle supported catalyst of the present invention includes a substrate, and a porous membrane formed on the substrate. The porous membrane contains support particles, noble metal fine particles, and an inorganic binder. In the porous membrane, the noble metal fine particles are supported on surfaces of the support particles, and the support particles form secondary particles each having a porous structure. The porous membrane is formed by binding, with the inorganic binder, the secondary particles formed of the support particles so that a gap is present at least partly between the secondary particles adjacent to each other.Type: ApplicationFiled: February 28, 2011Publication date: December 27, 2012Applicant: NIPPON SHEET GLASS COMPANY, LIMITEDInventors: Ryohei Ogawa, Kiyoshi Miyashita
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Publication number: 20120322650Abstract: One exemplary embodiment can be a layered catalyst for use in a selective hydrogenation of acetylenes and diolefins to olefins. The layered catalyst may include an inner core having an inert material, an outer layer including a metal oxide bonded to the inner core, and a metal deposited on the outer layer. Generally, the metal is an IUPAC Group 8-10 metal and the layered catalyst has an accessibility index of about 3- about 500.Type: ApplicationFiled: June 15, 2011Publication date: December 20, 2012Applicant: UOP, LLCInventors: Gregory J. Gajda, Bryan K. Glover, Antoine Negiz, John Joseph Senetar, Erik Holmgreen, Mark G. Riley
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Patent number: 8329613Abstract: The invention relates to methods for producing supported gold catalysts from a porous metal oxide support and a chloroauric acid precursor, wherein the support is placed in contact with the aqueous solution of the chloroauric acid precursor. The invention also relates to a metal oxide supported gold catalyst and its use in the oxidation of alcohols, aldehydes, polyhydroxy compounds and carbohydrates.Type: GrantFiled: August 1, 2006Date of Patent: December 11, 2012Assignee: Südzucker Aktiengesellschaft Mannheim/OchsenfurtInventors: Alireza Haji Begli, Christine Baatz, Nadine Decker, Ulf Pruesse, Klaus-Dieter Vorlop
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Patent number: 8323610Abstract: The invention relates to a catalyst for the oxidation of SO2 to SO3. The catalyst contains an active substance which contains vanadium, alkali metal compounds and sulfate applied to a support. The support contains naturally occurring diatomaceous earth, wherein the support contains at least one relatively soft naturally occurring uncalcined diatomaceous earth which has a percentage reduction of at least 35% in its D50 value determined in a particle size determination according to the dry method in comparison with the wet method.Type: GrantFiled: April 12, 2011Date of Patent: December 4, 2012Assignee: BASF SEInventors: Michael Krämer, Markus Schubert, Thomas Lautensack, Thomas Hill, Reinhard Körner, Frank Rosowski, Jürgen Zühlke
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Publication number: 20120302799Abstract: A catalyst composition comprises (i) a support; (ii) a dehydrogenation component comprising at least one metal or compound thereof selected from Groups 6 to 10 of the Periodic Table of Elements; and (iii) potassium or a potassium compound present in an amount of about 0.15 to about 0.6 wt % of potassium based upon the total weight of the catalyst composition, wherein the catalyst composition has an oxygen chemisorption of greater than 50%.Type: ApplicationFiled: December 17, 2010Publication date: November 29, 2012Inventors: Jihad M. Dakka, Lorenzo C. Decaul, Terry E. Helton, Teng Xu, Jenna L. Wallace
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Publication number: 20120301526Abstract: Nanomaterials of the JT phase of the titanium oxide TiO2-x, where 0?x?1 having as a building block a crystalline structure with an orthorhombic symmetry and described by at least one of the space groups 59 Pmmn, 63 Amma, 71 Immm or 63 Bmmb. The nanomaterials are in the form of nanofibers, nanowires, nanorods, nanoscrolls and/or nanotubes and are obtained from a hydrogen titanate and/or a mixed sodium and hydrogen titanate precursor compound that is isostructural to the JT crystalline structure. The titanates are the hydrogenated, the protonated, the hydrated and/or the alkalinized phases of the JT crystalline phase that are obtained from titanium compounds such as titanium oxide with an anatase crystalline structure, amorphous titanium oxide, and titanium oxide with a rutile crystalline structure, and/or directly from the rutile mineral and/or from ilmenite.Type: ApplicationFiled: June 19, 2012Publication date: November 29, 2012Applicant: INSTITUTO MEXICANO DEL PETROLEOInventors: José Antonio Toledo Antonio, Carlos Angeles Chávez, Maria Antonia Cortés Jacome, Fernando Alvarez RamÍrez, Yosadara Ruiz Morales, Gerardo Ferrat Torres, Luis Francisco Flores Ortiz, Esteban López Salinas, Marcelo Lozada y Cassou
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Patent number: 8314048Abstract: Use of physical vapor deposition methodologies to deposit nanoscale gold on activating support media makes the use of catalytically active gold dramatically easier and opens the door to significant improvements associated with developing, making, and using gold-based, catalytic systems. The present invention, therefore, relates to novel features, ingredients, and formulations of gold-based, heterogeneous catalyst systems generally comprising nanoscale gold deposited onto a nanoporous support.Type: GrantFiled: June 23, 2011Date of Patent: November 20, 2012Assignee: 3M Innovative Properties CompanyInventors: Larry A. Brey, Thomas E. Wood, Gina M. Buccellato, Marvin E. Jones, Craig S. Chamberlain, Allen R. Siedle