Group Iva Metal (ge, Sn, Or Pb) Patents (Class 423/618)
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Patent number: 6328944Abstract: Doped, pyrogenically prepared oxides of metals and/or non-metals which are doped with one or more doping components in an amount of 0.00001 to 20 wt. %. The doping component may be a metal and/or non-metal or an oxide and/or a salt of a metal and/or a non-metal. The BET surface area of the doped oxide may be between 5 and 600 m2/g. The doped pyrogenically prepared oxides of metals and/or non-metals are prepared by adding an aerosol which contains an aqueous solution of a metal and/or non-metal to the gas mixture during the flame hydrolysis of vaporizable compounds of metals and/or non-metals.Type: GrantFiled: December 2, 1997Date of Patent: December 11, 2001Assignee: Degussa AGInventors: Helmut Mangold, Rainer Golchert, Stipan Katusic, Karlheinz Janzon
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Patent number: 6328947Abstract: A method for producing fine particles of metal oxide characterized in that metal halide is hydrolyzed in the presence of organic solvent. According to this invention, under hydrolysis of titanium tetrachrolide, anatase type titanium oxide can be obtained by selecting hydrophilic organic solvent, and rutile type titanium oxide can be obtained by selecting hydrophobic organic solvent.Type: GrantFiled: August 14, 1998Date of Patent: December 11, 2001Assignee: Showa Denko K.K.Inventors: Ryuji Monden, Kasumi Nakamura, Chozo Inoue, Masahiro Ohmori, Jun Tanaka, Tamotsu Yamashita, Mayumi Miyazawa
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Patent number: 6316651Abstract: The present invention is directed to the synthesis, processing and test of improved spin-on precursor materials comprising at least one Group II metal and at least one Group IV or Group V metal, useful for making thin oxide films, useful, for example, in various electronic devices, such as ferroelectric devices. For example, barium strontium titanate spin-on precursor materials are useful for making thin films of barium strontium titanate (BST) for, e.g., ferroelectric capacitors. A method is provided for fabricating electronic devices employing such Group II-Group IV (or V) oxides as the active device, using polyether acids. The method comprises: (a) providing a substrate; (b) forming a bottom electrode on the substrate; (c) depositing a solution comprising polyether acid salts of the Group II and Group IV or Group V metal ions; (d) forming the oxide film from the solution; and (e) forming a top electrode on the oxide film.Type: GrantFiled: September 13, 1999Date of Patent: November 13, 2001Assignee: Raytheon CompanyInventors: T. Kirk Dougherty, John J. Drab
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Patent number: 6303091Abstract: A metal oxide powder except &agr;-alumina, is disclosed comprising polyhedral particles having at least 6 planes each, a number average particle size of from 0.1 to 300 &mgr;m, and a D90/D10 ratio of 10 or less where D10 and D90 are particle sizes at 10% and 90% accumulation, respectively from the smallest particle size side in a cumulative particle size curve of the particles. This metal oxide powder contains less agglomerated particles, and has a narrow particle size distribution and a uniform particle shape.Type: GrantFiled: June 9, 1995Date of Patent: October 16, 2001Assignee: Sumitomo Chemical Company, LimitedInventors: Masahide Mohri, Hironobu Koike, Shinichiro Tanaka, Tetsu Umeda, Hisashi Watanabe, Kunio Saegusa, Akira Hasegawa
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Patent number: 6303804Abstract: Metal acid salt complexes are provided comprising (1) a first metal ion consisting essentially of bismuth, and optionally, at least one second metal ion selected from the group consisting of barium, calcium, strontium, lead, titanium, tantalum, and niobium, and (2) a polyether acid. The metal acid salt complexes are prepared by combining (1) bismuth ion, and optionally, at least one second metal ion and (2) at least one of a polyether acid and a polyether acid anhydride prepared from the polyether acid. In particular, the use of a mixture of bismuth, strontium, and niobium and/or tantalum salts of the hydrophilic acid 3,6-dioxaheptanoic acid salt is described for production of ceramic thin films, such as for use in ferroelectric devices, using non-toxic solvents. As a consequence, improved electronic devices are formed from less toxic and easier handled precursors and solvents.Type: GrantFiled: September 13, 1999Date of Patent: October 16, 2001Assignee: Raytheon CompanyInventors: T. Kirk Dougherty, John J. Drab, O. Glenn Ramer
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Patent number: 6254940Abstract: The present invention related to methods of manufacturing oxide, nitride, carbide, and boride powders and other ceramic, organic, metallic, carbon and alloy powders and films and their mixtures having well-controlled size and crystallinity characteristics. This invention relates, more particularly, to a development in the synthesis of the ceramic, metallic, composite, carbon and alloy nanometer-sized particles with precisely controlled specific surface area, or primary particle size, crystallinity and composition. The product made using the process of the present invention and the use of that product are also claimed herein.Type: GrantFiled: May 26, 1999Date of Patent: July 3, 2001Assignee: University of CincinnatiInventors: Sotiris E. Pratsinis, Srinivas Vemury
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Patent number: 6217843Abstract: A method for the preparation of nanoparticles of metal oxides containing inserted metal particles and to metal-intercalated and/or metal-encaged “inorganic fullerene-like” (hereinafter IF) structures of metal chalcogenides obtained therefrom is provided, which comprises heating a metal I material with water vapor or electron beam evaporation of said metal I material with water or another suitable solvent, in the presence of a metal II salt, and recovering the metal II-doped metal I oxide, or proceeding to subsequent sulfidization, yielding bulk quantities of metal II-intercalated or metal II-encaged IF structures of the metal I chalcogenide. The metal II salt is preferably an alkaline, alkaline earth or transition metal salt, most preferably an alkali chloride. The intercalated and/or encaged IF structures are usable as lubricants. They also form stable suspensions, e.g.Type: GrantFiled: April 3, 2000Date of Patent: April 17, 2001Assignee: Yeda Research and Development Co., Ltd.Inventors: Moshe Homyonfer, Reshef Tenne, Yishay Feldman
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Patent number: 6200674Abstract: Tin oxide nanoparticles were produced with tin in a variety of oxidation states. In particular, nanoparticles of single phase, crystalline SnO2 were produced. Preferred tin oxide nanoparticles have an average diameter from about 5 nm to about 100 nm with an extremely narrow distribution of particle diameters. The tin oxide nanoparticles can be produced in significant quantities using a laser pyrolysis apparatus. Nanoparticles produced by laser pyrolysis can be subjected to further processing to change the properties of the particles without destroying the nanoscale size of the particles. The nanoscale tin oxide particles are useful for the production of transparent electrodes for use in flat panel displays.Type: GrantFiled: March 13, 1998Date of Patent: March 13, 2001Assignee: NanoGram CorporationInventors: Sujeet Kumar, Xiangxin Bi, Nobuyuki Kambe
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Patent number: 6183908Abstract: The present invention provides a lithium ion nonaqueous secondary battery having a high discharge capacity and excellent high rate characteristics. A novel negative electrode material for a lithium ion nonaqueous secondary battery is disclosed, comprising a composite metal oxide containing an amorphous structure synthesized by a sol-gel method.Type: GrantFiled: March 3, 1998Date of Patent: February 6, 2001Assignee: Fuji Photo Film Co., Ltd.Inventors: Tsutomu Miyasaka, Shigeru Nakamura
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Patent number: 6139816Abstract: A novel process for the preparation of ultra-fine powders of metal oxide wherein a surfactant is added to the solution for the preparation of the metal oxide to provide nanometer metal oxide powders without the utilization of vacuum or high pressure conditions is disclosed.Type: GrantFiled: June 9, 1997Date of Patent: October 31, 2000Assignee: Merck Kanto Advanced Chemical LTDInventors: Ru-Shi Liu, Shich-Chang Suen, Yu-Hua Kao
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Patent number: 6129902Abstract: A process for producing positive electrode active material includes feeding an aqueous nickel salt solution, aqueous solutions of different kinds of metals, aqueous solution containing ammonium ions and aqueous alkali solution each independently and simultaneously into a reaction vessel such that the amount of alkali metal is 1.9-2.3 moles relative to 1 mole of the total amount of nickel and different kinds of metals and the amount of ammonium ions is 2 moles or more relative to 1 mole of the total amount of nickel and different kinds of metals, the pH in the vessel is 11-13, the temperature in the vessel is 30-60.degree. C. and the average residence time is 20-50 hours.Type: GrantFiled: February 2, 1998Date of Patent: October 10, 2000Assignee: Matsushita Electric Industrial Co., Ltd.Inventors: Hiroyuki Sakamoto, Hidekatsu Izumi, Hirokazu Kimiya, Yoichi Izumi, Isao Matsumoto
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Patent number: 6096285Abstract: Herein disclosed is 6 indium tin oxide (ITO) fine powder whose crystal form is a corundum type one and which has a true specific gravity of not less than 6.5 g/cc, a green density of not less than 3.0 g/cc, and a Seebeck coefficient of less than 30 .mu.V/cc at ordinary temperature and less than 80 .mu.V/cc after heating at 200.degree. C. The ITO fine powder can be prepared by a method which comprises the steps of neutralizing an aqueous solution containing an indium salt and a tin salt with ammonia to thus control the pH of the reaction solution to the range of from 6.8 to 7.5; separating the resulting neutralized precipitates through filtration; drying and washing the precipitates; calcining the precipitates in the air at a temperature ranging from 550 to 700.degree. C.; and then reducing-burning at a temperature ranging from 350 to 450.degree. C. in a reducing atmosphere.Type: GrantFiled: October 26, 1998Date of Patent: August 1, 2000Assignee: Mitsui Mining and Smelting Co., Ltd.Inventors: Takao Hayashi, Kouichi Kawaratani, Hiroyuki Shimamura
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Patent number: 6066414Abstract: A material for a negative electrode having excellent performance for doping lithium and de-doping lithium and a nonaqueous-electrolyte secondary battery having a large capacity are provided. The nonaqueous-electrolyte secondary battery is disclosed which has a negative electrode mainly composed of a compound containing at least any one of silicon, germanium and tin, nitrogen and oxygen, a positive electrode made of composite metal oxide containing lithium or an interlayer compound containing lithium and nonaqueous electrolyte.Type: GrantFiled: July 29, 1998Date of Patent: May 23, 2000Assignee: Sony CorporationInventors: Hiroshi Imoto, Shinichiro Yamada
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Patent number: 6060422Abstract: A process for producing acrylic acid from propane and oxygen gas through a vapor-phase catalytic oxidation reaction, said process comprising conducting the reaction using as a catalyst a metal oxide containing metallic elements Mo, V, Sb, and A (provided that A is at least one element selected from the group consisting of Nb, Ta, Sn, W, Ti, Ni, Fe, Cr, and Co). The metal oxide is prepared by a process including specific steps (1) and (2). The metal oxide may be supported on a compound containing specific elements.Type: GrantFiled: June 24, 1999Date of Patent: May 9, 2000Assignee: Toagosei Co., Ltd.Inventors: Mamoru Takahashi, Xinlin Tu, Toshiro Hirose, Masakazu Ishii
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Patent number: 6054600Abstract: Novel metal acid salt complexes are provided comprising (1) a metal selected from Group IV and Group V metals and (2) a polyether acid, along with a process for making the salt complexes. The process comprises: (a) preparing a polyether acid anhydride from the corresponding polyether acid; and (b) combining a metal alkoxide containing the Group IV or Group V metal with the polyether acid anhydride to form the metal acid salt complex. The resulting Group IV and Group V metal acid salt complexes enable the production of improved thin film, thick film, and bulk ceramic metal oxides and mixed metal oxides for a number of applications, including ferroelectric, electrooptic, paraelectric, and piezoelectric devices, using liquid soluble precursors which are soluble in far less toxic solvents than in the prior art. The soluble ceramic precursors may also be used as reactive binders and shape-forming aids in conventional ceramic processing.Type: GrantFiled: May 7, 1999Date of Patent: April 25, 2000Assignee: Raytheon CompanyInventors: T. Kirk Dougherty, John J. Drab, O. Glenn Ramer
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Patent number: 5998064Abstract: A negative active material for lithium secondary battery contains a tin oxyhydroxide or a complex oxyhydroxide of tin and other elements such as Mg, Ca, Ni, Mn, V, Ti, Pb, Al, Ge, As, Si and/or Sb.Type: GrantFiled: October 27, 1997Date of Patent: December 7, 1999Assignee: Japan Storage Battery Co., Ltd.Inventors: Khalil Amine, Yuko Fujita
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Patent number: 5972820Abstract: Methods of making substantially phase-pure and thermally stable crystalline alumina compositions stabilized with an oxide of silicon, germanium, phosphorus, arsenic or a mixture thereof. Also provided are crystalline alumina compositions and catalyst supports made using these methods.Type: GrantFiled: January 19, 1999Date of Patent: October 26, 1999Assignee: ASEC Manufacturing, a General PartnershipInventors: Karl C. C. Kharas, Roy T. Mitsche, Heinz J. Robota, Michael G. Gatter
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Patent number: 5902375Abstract: The method of the invention comprises a method of melting tin-plated iron type scrap using tin-plated iron type scrap of loose packing as a portion of the iron type scrap and conducting melting while controlling the post combustion ratio of the gas by adjusting the amount of the combustion sustaining gas blown from the secondary tuyeres and a method of melting tin-plated iron type scrap packing the tin-plated iron type scrap prior to the non tin-plated iron type scrap and conducting melting while retaining the tin-melted iron type scrap between the coke packed layer and the non tin-plated iron type scrap packed layer.Type: GrantFiled: June 16, 1997Date of Patent: May 11, 1999Assignee: Sumitomo Metal Industries, Ltd.Inventors: Hiroaki Ishida, Yoshiki Ito, Takaiku Yamamoto
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Patent number: 5876686Abstract: This invention relates to a process for the preparation of an inorganic oxide gel comprising contacting at least one fluorinated inorganic oxide precursor with a fluorinated gelling agent in the presence of at least one fluorinated solvent to form a solution; allowing sufficient time for gelation to occur; and isolating the inorganic oxide gel. Gels made by this process are useful as coatings and as components in inorganic/organic hybrid materials.Type: GrantFiled: June 14, 1996Date of Patent: March 2, 1999Assignee: E. I. du Pont de Nemours and CompanyInventors: Michael Joseph Michalczyk, Kenneth George Sharp
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Patent number: 5877311Abstract: A process is provided which comprises isomerizing a compound having a ketose structure by the use of or in the presence of an organogermanium compound having a structural portion represented by formula (I): ##STR1## Due to the use or presence of the organogermanium compound, the process is free from the problems of the prior art, and is capable of isomerizing a compound having an aldose structure into a compound having a ketose structure at a high isomerization ratio without requiring any special apparatus or any complicated operation.Type: GrantFiled: July 3, 1997Date of Patent: March 2, 1999Assignees: National Food Research Institute, Ministry of Agriculture, Forestry & Fisheries, Asai Germanium Research Institute Co., Ltd.Inventors: Keiji Umeda, Norihiro Kakimoto, Takafumi Kasumi
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Patent number: 5877106Abstract: New thermally- and hydrothermally-stable .delta.-alumina compositions stabilized with an oxide of silicon, germanium, phosphorus, arsenic or a mixture thereof and methods of preparation of same are provided. Also provided are catalyst supports and catalysts made using these stabilized .delta.-alumina compositions, methods for making same, and methods for treating the exhaust gas from an internal combustion engine using such catalysts.Type: GrantFiled: January 3, 1997Date of Patent: March 2, 1999Assignee: ASEC ManufacturingInventors: Karl C. C. Kharas, Roy T. Mitsche, Heinz J. Robota, Michael G. Gatter
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Patent number: 5874374Abstract: A method for producing engineered materials from salt/polymer aqueous solutions in which an aqueous continuous phase having at least one metal cation salt is mixed with a hydrophilic organic polymeric disperse phase so as to form a metal cation/polymer gel. The metal cation/polymer gel is then treated to form a structural mass precursor, which structural mass precursor is heated, resulting in formation of a structural mass having predetermined characteristics based upon the intended application of the structural mass.Type: GrantFiled: September 8, 1997Date of Patent: February 23, 1999Assignee: Institute of Gas TechnologyInventor: Estela Ong
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Patent number: 5861132Abstract: A gas phase process for the production of titanium dioxide powders having well-controlled crystalline and surface area characteristics is disclosed. In this process, which is preferably carried out in a laminar diffusion flame reactor, vapor phase TiCl.sub.4 and oxygen are mixed in a reaction area which is heated externally. The titanium dioxide powder formed is then collected. It is preferred that the heat source used be a hydrocarbon fueled (e.g., methane) flame. Optionally, a vapor phase dopant (such as SiCl.sub.4) may be added to the reaction mixture to desirably affect the physical properties of the titanium dioxide produced. In a particularly preferred embodiment, a corona electric field is positioned across the area where the combustion reaction takes place (i.e., the reaction area). High anatase, high surface area titanium dioxide powders made by this process are excellent photocatalysts. The products of this process and the use of those products as photocatalysts are also disclosed.Type: GrantFiled: September 4, 1997Date of Patent: January 19, 1999Assignee: University of CincinnatiInventors: Sotiris Emmanuel Pratsinis, Srinivas Vemury, George P. Fotou, Andreas Gutsch
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Patent number: 5855862Abstract: A method for preparing an oxide (P), which includes the steps of (i) forming a solid phase compound (O) based on an oxide containing molecular entities (1) chosen from optionally substituted ammonium, diammonium, diazan-ium or diazandium, the entities being distributed within the solid matrix, and (ii) eliminating the entities (1) from the solid phase compound (O) by reacting the solid phase compound (O) with a gaseous stream containing a break-down reactant for the entities (1), and isolating the resulting solid material (P).Type: GrantFiled: January 8, 1997Date of Patent: January 5, 1999Assignee: Rhone-Poulenc ChimieInventors: Jean-Claude Grenier, Jean-Pierre Doumerc, Stephane Petit
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Patent number: 5840267Abstract: A method for producing a metal oxide powder which comprises heating a metal or metals in an atmosphere gas comprising a halogen gas, a hydrogen halide gas or a mixture of these gases in a concentration of from 0.5% by volume or more to 99.5% by volume or less; and oxygen, water vapor or a mixture of these gases in a concentration of from 0.5% by volume or more to 99.5% by volume or less.Type: GrantFiled: June 27, 1996Date of Patent: November 24, 1998Assignee: Sumitomo Chemical Co., Ltd.Inventor: Kunio Saegusa
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Patent number: 5788913Abstract: Solution precipitation processes for preparing antimony doped tin oxide having improved volumetric efficiency and improved wash efficiency involving use of concentrated base and metal salt solutions are disclosed.Type: GrantFiled: November 1, 1996Date of Patent: August 4, 1998Assignee: E. I. du Pont de Nemours and CompanyInventor: Donald Keith Swanson
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Patent number: 5776425Abstract: A process for preparing high specific surface area and small pore size tin oxide monolith is disclosed. It includes the steps of: (a) dissolving tin chloride or its hydrate in alcohol to form an alcohol solution having a tin ion concentration ranging between 0.001 to 5.Type: GrantFiled: April 26, 1995Date of Patent: July 7, 1998Assignee: National Science CouncilInventors: Lih-Fu Wu, Nae-Lih Wu
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Patent number: 5753026Abstract: Reaction spray process for preparing inclusion pigments by suspending the pigment to be encapsulated in an aqueous solution or suspension of a precursor of the inclusion material, spraying the suspension, with or without the addition of nitric acid and fuel, in a tubular reactor heated at from 850.degree. to 1100.degree. C., separating the inclusion pigment from the product stream and, if desired post-calcining the pigment at a temperature of at least 816.degree. C.Type: GrantFiled: October 21, 1996Date of Patent: May 19, 1998Assignee: Merck Patent Gesellschaft mit Beschrankter HaftungInventors: Mathias Kuntz, Hubert Linne, Joachim Weitzel, Dieter Heinz, Rodney Riddle
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Patent number: 5720805Abstract: There are disclosed stabilized Ti-Sn-O nanoclusters formed by complexing Ti-Sn-O nanoclusters with a salt of an alpha-hydroxy acid and also complexed nanoclusters with increased charge transfer interaction formed by annealing the complexed nanoclusters. Also disclosed are compositions for protection against ultraviolet radiation in which the nanoclusters are utilized with the usual topical carriers in an amount to give the level of sun protection factor (SPF) desired. Further disclosed is the method of making the nanoclusters involving acid hydrolyzing a titanium alkoxide and then reacting the hydrolyzed alkoxide with a tin halide.Type: GrantFiled: September 27, 1996Date of Patent: February 24, 1998Assignee: Southwest Research InstituteInventors: Stephen T. Wellinghoff, Domnica Cernasov
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Patent number: 5705098Abstract: The invention provides acicular electroconductive tin oxide fine particles which has a mean diameter of 0.005-1 .mu.m and a mean length of 0.05-10 .mu.m and an aspect ratio of 3 or higher. The invention further provides a process for producing the acicular electroconductive tin oxide fine particles, which comprises firing a starting material containing tin, silicon and an alkali metal halide at 700.degree.-1200.degree. C and removing soluble salts from the resulting fired product.Type: GrantFiled: July 29, 1996Date of Patent: January 6, 1998Assignee: Ishihara Sanayo Kaisha, Ltd.Inventors: Haruo Okuda, Hideo Futamata, Hideo Takahashi, Norihiko Sanefuji
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Patent number: 5698483Abstract: A process for producing nano size powders comprising the steps of mixing an aqueous continuous phase comprising at least one metal cation salt with a hydrophilic organic polymeric disperse phase, forming a metal cation salt/polymer gel, and heat treating the gel at a temperature sufficient to drive off water and organics within the gel, leaving as a residue a nanometer particle-size powder.Type: GrantFiled: March 17, 1995Date of Patent: December 16, 1997Assignee: Institute of Gas TechnologyInventors: Estela T. Ong, Vahid Sendijarevic
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Patent number: 5679787Abstract: A process is provided which comprises isomerizing a compound having a ketose structure by the use of or in the presence of an organogermanium compound having a structural portion represented by formula (I): ##STR1## Due to the use or presence of the organogermanium compound, the process is free from the problems of the prior art, and is capable of isomerizing a compound having an aldose structure into a compound having a ketose structure at a high isomerization ratio without requiring any special apparatus or any complicated operation.Type: GrantFiled: October 25, 1994Date of Patent: October 21, 1997Assignees: National Food Research Institute, Ministry of Agriculture, Forestry and Fisheries, Asai Ermanium Research Institute Co., Ltd.Inventors: Keiji Umeda, Norihiro Kakimoto, Takafumi Kasumi
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Patent number: 5635154Abstract: Disclosed herein is a process for producing fine metal oxide particles comprising the step of heat-treating an aqueous solution of a metal salt at a temperature of not lower than 200.degree. C. under a pressure of not less than 160 kg/cm.sup.2 for 1 second to 1 hour so as to bring into the decomposition reaction of said metal salt.Type: GrantFiled: May 23, 1995Date of Patent: June 3, 1997Assignee: Nissan Chemical Industries Ltd.Inventors: Kunio Arai, Tadafumi Ajiri
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Patent number: 5527871Abstract: A layered inorganic-organic polymer having the features of both inorganic and organic materials and a coating material produced therefrom. The former is produced, for example, by reacting an organoalkoxysilane having alkoxyl groups and organic groups with a metal salt or alkoxide in an alkaline solution. This reaction yields a layered inorganic-organic polymer composed of one or two sheets of tetrahedrons with a central atom of Si or a metal and a sheet of octahedrons with a central atom of a metal, part or all of the central atoms of the tetrahedrons being covalently bonded to organic groups. If the organic group is one which contains a functional group capable of polymerization, the resulting layered inorganic-organic polymer may be polymerized with a functional group to give a firm coating material. The functional group of the organic group may be bonded to an organic compound.Type: GrantFiled: April 12, 1995Date of Patent: June 18, 1996Assignee: Kabushiki Kaisha Toyota Chuo KenkyushoInventors: Masaaki Tani, Yoshiaki Fukushima, Akane Okada, Katsuya Mizutani
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Patent number: 5518707Abstract: This invention relates to novel crystalline molecular sieves having the pharmacosiderite structure and having germanium and M metals as framework elements. Optionally, titanium and silicon can also be a framework element. The M metals can be any metal which has octahedral coordination and has a valence of +2, +3, +4 or +5. Illustrative of these M metals are niobium, tin, antimony, aluminum, gallium and tantalum.Type: GrantFiled: March 27, 1995Date of Patent: May 21, 1996Assignee: UOPInventors: Robert L. Bedard, Lisa M. King
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Patent number: 5512305Abstract: Tungstoniobate compounds containing an ion of general formulaA.sub.x W.sub.y Nb.sub.a O.sub.b !.sup.p- Iwhere A=P, Si, Ge, x=0 or an integer from 1 to 10, y is an integer from 1 to 10, y is an integer from 1 to 40, a is an integer from 1 to 8, b is an integer from 15 to 150, and p is an integer dependent upon the nature and oxidation state of element A, have been found to be active against viruses including especially HIV and Herpes Simplex. Pharmaceutical compositions and methods of treatment are disclosed.Type: GrantFiled: August 26, 1993Date of Patent: April 30, 1996Inventors: Michael J. Abrams, Gerald E. Bossard, Craig L. Hill, Raymond F. Schinazi, Brian R. C. Theobald
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Patent number: 5494652Abstract: A fine metal oxide powder is prepared by a method comprising the steps of (1) preparing a hydroxide precursor of a metal oxide, (2) mixing the precursor with an inorganic compound having a melting point lower than the crystallization temperature of the metal oxide, and (3) subjecting the resulting mixture to a high temperature thermal treatment to form the fine metal oxide powder.Type: GrantFiled: March 23, 1994Date of Patent: February 27, 1996Assignee: Eastman Kodak CompanyInventor: Jean C. Robert
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Patent number: 5484694Abstract: Imaging elements, such as photographic, electrostatographic and thermal imaging elements, are comprised of a support, an image-forming layer and an electrically-conductive layer comprising a dispersion in a film-forming binder of very small particles of antimony-doped tin oxide having a high antimony dopant level and a small crystallite size. Use of such particles provides a controlled degree of electrical conductivity and beneficial chemical, physical and optical properties which adapt the electrically-conductive layer for such purposes as providing protection against static or serving as an electrode which takes part in an image-forming process.Type: GrantFiled: November 21, 1994Date of Patent: January 16, 1996Assignee: Eastman Kodak CompanyInventors: Mark Lelental, Paul A. Christian, Ibrahim M. Shalhoub, Thomas N. Blanton
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Patent number: 5447708Abstract: An apparatus provides high temperature and short residence time conditions for the production of nanoscale ceramic powders. The apparatus includes a confinement structure having a multiple inclined surfaces for confining flame located between the surfaces so as to define a flame zone. A burner system employs one or more burners to provide flame to the flame zone. Each burner is located in the flame zone in close proximity to at least one of the inclined surfaces. A delivery system disposed adjacent the flame zone delivers an aerosol, comprising an organic or carbonaceous carrier material and a ceramic precursor, to the flame zone to expose the aerosol to a temperature sufficient to induce combustion of the carrier material and vaporization and nucleation, or diffusion and oxidation, of the ceramic precursor to form pure, crystalline, narrow size distribution, nanophase ceramic particles.Type: GrantFiled: May 10, 1993Date of Patent: September 5, 1995Assignee: Physical Sciences, Inc.Inventors: Joseph J. Helble, Gary A. Moniz, Theodore F. Morse
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Patent number: 5401441Abstract: The invention relates to the preparation of conductive metal oxide powders.The method according to the invention comprises the following stages: a) a colloidal aqueous solution of crystalline particles of at least one metal oxide or a composite oxide of several metals is formed, by hydrolysing a starting solution containing metal ions and an agent for complexing the metals, (b) heat treatment is carried out. Any residual salts and residual complexing agent are eliminated before or during the heat treatment (b).Application to the manufacture of antistatic coatings.Type: GrantFiled: June 3, 1993Date of Patent: March 28, 1995Assignee: Eastman Kodak CompanyInventors: Jean C. Robert, Jean I. Lemerle
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Patent number: 5358695Abstract: Submicron sized ceramic particles are produced by combining a ceramic precursor with an organic or carbonaceous carrier material, and exposing droplets of the mixture to a temperature sufficient to cause combustion of the organic material and subsequent vaporization and nucleation, or diffusion and oxidation, of the ceramic precursor to form pure, crystalline, uniform nanophase ceramic particles.Type: GrantFiled: January 21, 1993Date of Patent: October 25, 1994Assignee: Physical Sciences, Inc.Inventors: Joseph J. Helble, Gary A. Moniz, Joseph R. Morency
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Patent number: 5330833Abstract: A tin oxide fiber expressed by the general formulaSn.sub.(1-y) Z.sub.y O.sub.2 (I)wherein Z is a metal element of the Group V of the periodic table, and y is 0 to 0.3, having a diameter which is greater than 1 .mu.m or having a length which is greater than 3 mm and having an aspect ratio which is greater than 10.This fiber is process for producing a tin oxide fiber comprising spinning an alcohol solution of a tin compound soluble in alcohol, or spinning an alcohol solution of said tin compound and a compound of a metal of the Group V of the periodic table that is soluble in alcohol, followed by heating.Type: GrantFiled: January 31, 1992Date of Patent: July 19, 1994Assignee: Tokuyama Soda Kabushiki KaishaInventors: Hiroya Yamashita, Keiko Seki, Sumio Sakka, Toshinobu Yoko
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Patent number: 5269970Abstract: Electrically conductive halide doped tin-IV-oxide is disclosed which contains divalent tin in an amount not exceeding 2% by weight and also contains 0.1 to 2.5% by weight, particularly 0.1 to 1.0% by weight, of halide.Methods for producing the tin-IV-oxide are also disclosed. The product is suitable for imparting electric conductivity in the form of a filler or pigment to a variety of products such as plastics, lacquer, varnish, paint, paper, textiles and toners, without discoloration of the products.Type: GrantFiled: March 17, 1992Date of Patent: December 14, 1993Assignee: Th. Goldschmidt AGInventors: Erich Ruf, Joachim Giersberg, Gerd Dembinski, Hartmut Gomm, Hans-Gunter Krohm
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Patent number: 5268337Abstract: Ceramic oxide powders and a method for their preparation. Ceramic oxide powders are obtained using a flame process whereby two or more precursors of ceramic oxides are introduced into a counterflow diffusion flame burner wherein said precursors are converted into ceramic oxide powders. The morphology, particle size, and crystalline form of the ceramic oxide powders are determined by process conditions.Type: GrantFiled: November 18, 1991Date of Patent: December 7, 1993Assignee: The Johns Hopkins UniversityInventors: Joseph L. Katz, Cheng-Hung Hung
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Patent number: 5246623Abstract: A method for the production of electrically conductive tin-IV-oxide of fine particle size is disclosed. Pursuant to the method, tin oxide and/or tin oxide hydrate is precipitated on a dihydroxy-tin-dichloride solution containing fluoride ions as doping agents. The precipitation is accomplished by adding alkali metal hydroxide, ammonium hydroxide, alkali metal carbonate or ammonium carbonate and the tin oxide and/or tin oxide hydrate is separated from the aqueous medium. The separated product is then calcined. The invention also discloses the use of the fluoride-doped tin-IV-oxide by adding it to the various vehicles.Type: GrantFiled: August 25, 1992Date of Patent: September 21, 1993Assignee: Th. Goldschmidt AGInventors: Joachim Giersberg, Astrid Klapdor
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Patent number: 5238674Abstract: A fluorine-doped tin oxide powder is prepared by combining a solution of a stannic salt with a solution of a fluoride, separating the tin hydroxide from the liquid and drying it at a temperature not exceeding about room temperature and heating the dried product to at least 500.degree. C., until the fluorine content is less than 10% and preferably is between 1 and 5% by weight. The fluorine-doped tin oxide powder of the invention can be used for the manufacture of electrically conductive toner powder.Type: GrantFiled: February 5, 1991Date of Patent: August 24, 1993Assignee: Oce-Nederland B.V.Inventors: Gerardus C. P. Vercoulen, Ronald Groothuijse
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Patent number: 5209911Abstract: The present invention describes a method of making metal stannates by reacting a solid metal oxide, hydroxide or carbonate with an aqueous stannate solution and recovering the precipitated metal stannate, the solid component being added in an amount which is stoichiometrically not substantially more then the amount of tin.Type: GrantFiled: February 27, 1992Date of Patent: May 11, 1993Assignee: Alcan International LimitedInventor: David J. Randall
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Patent number: 5200377Abstract: A crystalline zeolite SSZ-28 is prepared using an N,N-dimethyl-tropinium or N,N-dimethyl-3-azonium bicyclo[3.2.2]nonane cation as a template. Also disclosed is a process for converting hydrocarbons with crystalline zeolite SSZ-28.Type: GrantFiled: March 2, 1992Date of Patent: April 6, 1993Assignee: Chevron Research and Technology CompanyInventors: Stacey I. Zones, Dennis L. Holtermann, Robert A. Innes
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Patent number: 5168095Abstract: A composite oxide synthesized by a citrating process and utilized in functional ceramics materials is prepared by the following process. Co-precipitants or mixtures of at least one component selected from the group consisting of carbonates, basic copper and/or hydroxides of elements which compose a composite oxide are reacted with citric acid in an aqueous solution or in an organic solvent. The elements are selected from at least one element of the group consisting of Y, rare earth elements, transition elements, and alkali metal or alkaline earth metal elements. The citrate compound formed is baked to complete the composite oxide.The composite oxide synthesized by this invention has superconduction at the most temperature of 93.degree. K. with excellent Meissner effect.Type: GrantFiled: February 21, 1991Date of Patent: December 1, 1992Assignees: Nissan Motor Company Ltd., Seimi Chemical Co. Ltd.Inventors: Fumio Munakata, Mitsugu Yamanaka, Susumu Hiyama
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Patent number: 5158705Abstract: Disclosed is a method for preparing aqueous negatively charged tin oxide sols having substantially uniform particle size no greater than about 50 nm and preferably from about 5 to about 20 nm, the sols being characterized as being substantially free of any other reagents which may adversely affect contemplated usage as a catalyst.Type: GrantFiled: January 2, 1992Date of Patent: October 27, 1992Assignee: Nyacol Products, Inc.Inventor: Thomas F. Swank