Titanium Dioxide Patents (Class 423/610)
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Patent number: 6649561Abstract: A titania-coated honeycomb catalyst matrix is provided for the ultraviolet-photocatalytic oxidation of organic pollutants in a flowing fluid. A honeycomb-shaped skeletal structure (12) has a thin, lightweight substrate (18) of metal or ceramic, typically an aluminum alloy, and a surface coating (20) of photocatalyst, such as titania. The photocatalyst (20) is bonded to the substrate (18) via a thin oxide layer (18′) on the substrate. The oxide layer (18′) may be grown on the substrate. The photocatalyst coating (20) is made by mixing (30) titania powder in a TiO2 sol-gel to form a titania slurry. The substrate with oxide layer is coated (30) with the titania slurry and then heat treated (31). The photocatalyst coating (20) is typically applied to substrate sheets (40, 60, 62) preformed for assembly into a honeycomb-shaped skeletal structure (12) having an array of parallel cells (46, 46′).Type: GrantFiled: February 26, 2001Date of Patent: November 18, 2003Assignee: United Technologies CorporationInventors: Joseph J. Sangiovanni, Zissis A. Dardas, Mariana A. Ioneva, Lin Li
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Patent number: 6645460Abstract: There is provided a titanium hydroxide having a nitrogen content of 2.3% by weight or more in terms of nitrogen atom based on the titanium hydroxide and/or having a nitrogen content of about 3.3% by weight or more in terms of nitrogen atom based on the titanium oxide obtained after calcining the titanium hydroxide in air at about 400° C. The titanium hydroxide may be utilized as a raw material for producing a photocatalyst which exhibits a superior photocatalytic activity by irradiation of visible light.Type: GrantFiled: March 29, 2001Date of Patent: November 11, 2003Assignee: Sumitomo Chemical Company, LimitedInventors: Yoshiaki Sakatani, Hironobu Koike, Hiroyuki Ando
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Patent number: 6645445Abstract: A process for efficiently removing titanium oxide or red oxide from an ethylene glycol solvolysis product of a polyester containing titanium oxide or red oxide. The process comprises the steps of: (1) mixing at least one calcium compound selected from the group consisting of calcium oxide, calcium carbonate and calcium hydroxide with a polyester decomposition product containing titanium oxide which is an ethylene glycol solvolysis product of a polyester containing titanium oxide to agglomerate titanium oxide contained in the polyester decomposition product, or mixing titanium oxide with a polyester decomposition product containing red oxide which is an ethylene glycol solvolysis product of a polyester containing red oxide to agglomerate red oxide contained in the polyester decomposition product; and (2) subjecting the agglomerates to solid-liquid separation to remove titanium oxide or red oxide from the polyester decomposition product.Type: GrantFiled: May 3, 2001Date of Patent: November 11, 2003Assignee: Aies Co., Ltd.Inventors: Shuji Inada, Kikuchi Sato
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Publication number: 20030198591Abstract: Processes for the efficient and economical beneficiation of titaniferous ore are provided. A unique process for beneficiating ore comprising pretreatment of the ore by oxidation and reduction, followed by acid leaching with sulfuric acid has been developed. The acid used in this process may be recycled, which will thereby increase the efficiency of the process. Preferably the ore treated according to the present invention is ilmenite ore.Type: ApplicationFiled: April 19, 2002Publication date: October 23, 2003Applicant: Millennium Inorganic Chemicals, Inc.Inventors: Earl Smith, Michael Robinson, Kirit Talati
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Publication number: 20030185736Abstract: Disclosed are a porous material comprising particles without substantial fibrous structure and having pores, the pores having a mean pore diameter in a meson-pore region, sharp pore size distribution, and at least a part of the pores being connected three-dimensionally to form a three-dimensional network structure with random passages, the porous material preferably being of alumina and having a spongy structure or the porous material preferably being an aggregate of particles having an aspect ratio of 3 or less; a process of producing the porous material which includes a step of aging a system capable of becoming an oxide on thermal decomposition; a catalyst for exhaust gas purification having excellent NOx removal performance, high resistance against sulfur poisoning, and satisfactory high-temperature durability which comprises the porous material as a carrier having supported thereon a noble metal and an NOx storage component; and a method of exhaust gas purification using the catalyst.Type: ApplicationFiled: October 2, 2002Publication date: October 2, 2003Applicant: KABUSHIKI KAISHA TOYOTA CHUO KENKYUSHOInventors: Miho Hatanaka, Akihiko Suda, Toshiyuki Tanaka, Naoki Takahashi, Toshio Yamamoto, Yusuke Akimoto, Naohiro Terao
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Patent number: 6627579Abstract: Titanium oxide exhibiting a superior photocatalytic activity through irradiation of a visible light as well as an ultraviolet light, and a photocatalyst and a photocatalytic coating agent including said titanium oxide, wherein said titanium oxide has a value of an index X1 calculated by the following equation (I) of not more than about 0.90, and a value of an index Y1 calculated by the following equation (II) of not less than 0.Type: GrantFiled: June 13, 2000Date of Patent: September 30, 2003Assignee: Sumitomo Chemical Company, LimitedInventors: Yoshiaki Sakatani, Hironobu Koike, Yoshiaki Takeuchi
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Patent number: 6613300Abstract: 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: August 9, 2001Date of Patent: September 2, 2003Assignee: Degussa AGInventors: Helmut Mangold, Rainer Golchert, Stipan Katusic, Karlheinz Janzon
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Publication number: 20030162658Abstract: A titanium oxide showing sufficiently high photocatalytic activities by irradiation of visible light is provided. The titanium oxide contains an element selected from IIa group elements, IIb group elements and lantanoids, and has (i) an X-ray photoelectron spectrum (XPS) which has a peak at a binding energy within the range of from 458 eV to 460 eV and (ii) index X (=B/A) of about 0.98 or less, wherein A and B stand for half-widths of peaks at binding energies in 458-460 eV in the integrated spectra obtained by integrating the first and second XPS spectra and the seventh and eighth XPS spectra, respectively, which are obtained from eight-time XPS measurements of the titanium oxide.Type: ApplicationFiled: December 19, 2002Publication date: August 28, 2003Applicant: SUMITOMO CHEMICAL COMPANY, LIMITEDInventors: Kazunari Domen, Yoshiaki Sakatani
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Patent number: 6592842Abstract: Mesoporous nanocrystalline titanium dioxide heterojunction materials are disclosed. In one disclosed embodiment, materials comprising a core of titanium dioxide and a shell of a molybdenum oxide exhibit a decrease in their photoadsorption energy as the size of the titanium dioxide core decreases.Type: GrantFiled: May 16, 2001Date of Patent: July 15, 2003Assignee: Battelle Memorial InstituteInventors: Scott H. Elder, Yali Su, Yufei Gao, Steve M. Heald
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Publication number: 20030130361Abstract: A process for preparing a catalyst support or a supported metal catalyst which process comprises: (a) admixing a refractory oxide having a surface area of at least 0.5 m2/g with a solution of a precursor of the refractory oxide and, if a supported metal catalyst is prepared, with a precursor of the metal or the metal itself, yielding a slurry, (b) drying of the slurry, and (c) calcining. Further, a catalyst support or a supported metal catalyst which is obtainable by the said process; the use of the said supported metal catalyst in a three phase chemical process; and a process for producing hydrocarbons, which process comprises contacting a mixture of carbon monoxide and hydrogen at elevated temperature and pressure with the said supported metal catalyst wherein the said supported metal catalyst comprises a Group VIII metal at least partly in metallic form.Type: ApplicationFiled: October 25, 2002Publication date: July 10, 2003Inventors: Peter William Lednor, Gerardus Petrus Lambertus Niesen, Andre Harmen Sijpkes
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Patent number: 6589448Abstract: A ceramic bearing ball in which at least a portion of a constituent ceramic is formed of an electrically conductive inorganic compound phase, whereby a proper electrical conductivity is imparted to the ceramic. Thus, electrifying of a bearing ball is prevented or effectively suppressed. This prevents the problem involved in production of balls of small diameter wherein such balls adhere to an apparatus (e.g., a container) during production thereof, thus hindering smooth progress of the production process. In addition, when ceramic balls are used in precision electronic equipment, such as a hard disk drive of a computer, which is operated at high rotational speed, adhesion of foreign substance due to electrification of the balls, and resultant generation of abnormal noise or vibration can be prevented or effectively suppressed.Type: GrantFiled: April 10, 2001Date of Patent: July 8, 2003Assignee: NGK Spark Plug Co., Ltd.Inventors: Tomonori Niwa, Tetsuji Yogo
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Publication number: 20030103889Abstract: A method for preparing thermally stable, silicon-containing titanium dioxide, said method comprising the reaction of titanium hydroxide or titanium dioxide with a silica sol, under conditions which prevent the coagulation of silica particles in said sol, to obtain silicon-containing titanium hydroxide or silicon-containing titanium dioxide, and in the case of silicon-containing titanium hydroxide, heat treating the same to obtain silicon-containing titanium dioxide.Type: ApplicationFiled: February 21, 2002Publication date: June 5, 2003Applicant: ROTEM AMFERT NEGEV LTD.Inventors: Ya?apos;acov Mirsky, Marina Gorlova
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Publication number: 20030087073Abstract: A method of producing a pattern-forming body with high accuracy with no need for a post-exposure treatment and without allowing any photocatalyst to remain in the resultant pattern-forming body and whereby any problematic effect of the photocatalyst in the pattern-forming body is eliminated. The method includes providing a photocatalyst-containing layer-sided substrate and a pattern-forming body substrate having a characteristic-changeable layer, which is changed by the effect of the photocatalyst in the photocatalyst-containing layer, and a light-shading part formed as a pattern in such a manner that the photocatalyst-containing layer and the characteristic-changeable layer are brought into contact with each other, followed by exposure on the side of the pattern-forming body substrate to change the characteristics of the characteristic-changeable layer of the exposed part, followed by removing the photocatalyst-containing layer-sided substrate.Type: ApplicationFiled: October 16, 2002Publication date: May 8, 2003Inventor: Hironori Kobayashi
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Patent number: 6548039Abstract: A hydrometallurgical process is provided for producing pigment grade TiO2 from titanium containing solutions. Generally, the solution is an aqueous solution. The process includes hydrolyzing the solution via complete evaporation in well-controlled conditions of temperature to form titanium oxide of well-defined characteristics. The hydrolyzing can be achieved by spray hydrolysis in a spray dryer. After hydrolyzing, the titanium oxide is calcined to transform the titanium oxide to the desired form of titanium dioxide. The titanium dioxide can be either anatase or rutile. Following calcination, the titanium dioxide is milled to provide the desired particle size distribution and then finished.Type: GrantFiled: February 14, 2000Date of Patent: April 15, 2003Assignee: Altair Nanomaterials Inc.Inventors: Willem P. C. Duyvesteyn, Timothy Malcome Spitler, Bruce James Sabacky, Andrew Vince, Jan Prochazka
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Publication number: 20030068268Abstract: A process for producing a titanium oxide is provided which comprises the steps of (i) reacting a titanium compound with ammonia in an amount exceeding the stoichiometric amount necessary to convert the titanium compound to a titanium hydroxide or reacting a titanium compound with a base at pH of from about 2 to about 7, to obtain a reaction product and (ii) calcining the obtained product. The titanium oxide exhibits a high photocatalytic activity by visible light radiation.Type: ApplicationFiled: March 29, 2001Publication date: April 10, 2003Inventors: Yoshiaki Sakatani, Hironobu Koike
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Patent number: 6540986Abstract: This invention relates to novel sunscreen compositions containing inorganic sunscreen agents, anionic emulsifiers and an oil component which permit the use of high amounts of inorganic sunscreen agents in the compositions without having extreme whitening effects and achieving high sun protection factors.Type: GrantFiled: January 5, 2001Date of Patent: April 1, 2003Assignee: Johnson & Johnson Consumer Products, Inc.Inventors: Elvin R. Lukenbach, Curtis Cole, Prakash Naik-Satam, Ralph Stutzman
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Patent number: 6537517Abstract: Crystalline titania of which the crystal shape is a novel nanotube. This crystalline titania is produced by treating crystalline titania with an alkali. This crystalline titania is used as an ultraviolet absorber, a masking agent, an adsorbent and an optically active catalyst.Type: GrantFiled: August 24, 1999Date of Patent: March 25, 2003Assignee: Chuba Electric Power Co., Ltd.Inventors: Tomoko Kasuga, Masayoshi Hiramatsu
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Patent number: 6531110Abstract: An upgraded titania slag product is described. A TiO2 containing product which includes rutile, pseudo-brookite and ilmenite is disclosed.Type: GrantFiled: August 29, 1997Date of Patent: March 11, 2003Assignee: QIT-fer et Titane Inc.Inventors: Krzysztof Borowiec, Alfonso E. Grau, Michel Gueguin, Jean-Francois Turgeon
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Patent number: 6517802Abstract: A chemical synthetic route for nanostructured materials that is scalable to large volume production, comprising spray atomization of a reactant solution into a precursor solution to form a nanostructured oxide or hydroxide precipitate. The precipitate is then heat-treated followed by sonication, or sonicated followed by heat treatment. This route yields nanostructured doped and undoped nickel hydroxide, manganese dioxide, and ytrria-stabilized zirconia. Unusual morphological superstructures may be obtained, including well-defined cylinders or nanorods, as well as a novel structure in nickel hydroxide and manganese dioxide, comprising assemblies of nanostructured fibers, assemblies of nanostructured fibers and agglomerates of nanostructured particles, and assemblies of nanostructured fibers and nanostructured particles. These novel structures have high percolation rates and high densities of active sites, rendering them particularly suitable for catalytic applications.Type: GrantFiled: September 15, 2000Date of Patent: February 11, 2003Assignees: The University of Connecticut, Rutgers, The State University of New JerseyInventors: Tongsan D. Xiao, Peter R. Strutt, Bernard H. Kear, Huimin Chen, Donald M. Wang
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Patent number: 6517804Abstract: The present invention relates to titanium dioxide powder with a large specific surface area, a method for preparing thereof, and a use of the titanium dioxide as a photocatalyst, and more particularly, discloses a method for the preparation of titanium dioxide powder comprised of the steps of adding ice pieces or icy distilled water to pure titanium tetrachloride (TiCl4) to give an aqueous titanylchloride solution of 1.5 M or higher; diluting the aqueous titanylchloride with distilled water; obtaining precipitates from the diluted aqueous titanylchloride solution by standing for 2-20 hours at 15-70° C.; and filtering, washing and drying the above precipitates to give downy hair-shaped TiO2 powder with a specific surface area of 130-200 m2/g.Type: GrantFiled: July 5, 2000Date of Patent: February 11, 2003Assignees: Korea Atomic Energy Institute, Nano Chemical Co., Ltd.Inventors: Sun-Jae Kim, Soon Dong Park, Chang Kyu Rhee, Whung Whoe Kim, Il Hiun Kuk
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Patent number: 6517629Abstract: The present invention provides a process for generating titanium dioxide pigments that have reduced moisture retention. By leaching oxidizer discharge and removing alumina containing compounds, one is able to generate a low volatile pigmentary bases. These low volatile pigmentary bases may be processed into finished low volatile pigments that may be combined with polymers to form polymer matrices. These pigments may be incorporated into polymer matrices at high temperatures without significant lacing.Type: GrantFiled: February 5, 2001Date of Patent: February 11, 2003Assignee: Millennium Inorganic Chemicals, Inc.Inventor: Stephen P. Kinniard
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Publication number: 20030021746Abstract: An apparatus for thermal conversion of one or more reactants to desired end products includes an insulated reactor chamber having a high temperature heater such as a plasma torch at its inlet end and, optionally, a restrictive convergent-divergent nozzle at its outlet end. In a thermal conversion method, reactants are injected upstream from the reactor chamber and thoroughly mixed with the plasma stream before entering the reactor chamber. The reactor chamber has a reaction zone that is maintained at a substantially uniform temperature. The resulting heated gaseous stream is then rapidly cooled by passage through the nozzle, which “freezes” the desired end product(s) in the heated equilibrium reaction stage, or is discharged through an outlet pipe without the convergent-divergent nozzle. The desired end products are then separated from the gaseous stream.Type: ApplicationFiled: February 12, 2001Publication date: January 30, 2003Inventors: James R. Fincke, Brent A. Detering
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Patent number: 6511587Abstract: A process for the prearation of a sputtering target which comprises sub-stoichiometric titanium dioxide, TiOx, where x is below 2 having an electrical resistivity of less than 0.5 ohm.cm, optionally together with niobium oxide, which process comprises plasma spraying titanium dioxide, TiO2, optionally together with niobium oxide, onto a target base in an atmosphere which is oxygen deficient and which does not contain oxygen-containing compounds, the target base being coated with TiOx, which is solidified by cooling under conditions which prevent the sub-stoichiometric titanium dioxide from combining with oxygen.Type: GrantFiled: December 5, 2001Date of Patent: January 28, 2003Assignee: Bekaert VDSInventor: Johan Emile Marie Vanderstraeten
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Patent number: 6503475Abstract: A process for the production of ultrafine powders that includes subjecting a mixture of precursor metal compound and a non-reactant diluent phase to mechanical milling whereby the process of mechanical activation reduces the microstructure of the mixture to the form of nano-sized grains of the metal compound uniformly dispersed in the diluent phase. The process also includes heat treating the mixture of nano-sized grains of the metal compound uniformly dispersed in the diluent phase to convert the nano-sized grains of the metal compound into a metal oxide phase. The process further includes removing the diluent phase such that the nano-sized grains of the metal oxide phase are left behind in the form of an ultrafine powder.Type: GrantFiled: November 13, 2000Date of Patent: January 7, 2003Assignee: Advanced Nano Technologies Pty Ltd.Inventors: Paul Gerard McCormick, Takuya Tzuzuki
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Publication number: 20020192138Abstract: A process for continuously preparing finely divided refractory oxides having a particle specific surface area of less than about 100 m2/g from an oxygen containing reactant gas and at least one reactant selected from the group consisting of vaporous salts of silicon, titanium, aluminum, zirconium, iron and antimony, wherein at least one of the reactant materials is heated by means of a plasma generator which produces a temperature in the range of from about 3,000°-to about 12,000° C., and the reactants are combined and passed into a reaction zone for a period of from about 0.001 to about 1.0 second to give the oxide product. The oxygen-containing gas stream comprises from about 100 to about 105% of the stoichiometric amount of oxygen based on the vaporous salt and from about 10 to about 150%, based on oxygen, of a gaseous diluent which is inert under reaction conditions.Type: ApplicationFiled: June 19, 2001Publication date: December 19, 2002Inventor: William A. Yuill
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Publication number: 20020169076Abstract: A photocatalytic material, which exhibits photocatalytic activity when exposed to visible light, the material containing Ti—O—N containing nitrogen in lattices of titanium oxide crystal.Type: ApplicationFiled: February 5, 2002Publication date: November 14, 2002Applicant: KABUSHIKI KAISHA TOYOTA CHUO KENKYUSHOInventors: Morikawa Takeshi, Asahi Ryoji, Ohwaki Takeshi, Taga Yasunori
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Patent number: 6479031Abstract: An aqueous titanium oxide-dispersed sol comprising titanium oxide particles dispersed in water, said sol comprising chloride ions in an amount of 50 to 10,000 ppm by weight as the chlorine element. Titanium tetrachloride is hydrolyzed to form an aqueous titanium oxide-dispersed sol and the chloride ion concentration thereof is controlled. Another aqueous titanium oxide-dispersed sol comprising brookite-type titanium oxide particles dispersed in water, said titanium oxide particles having an average particle size of not more than 0.5 &mgr;m and a specific surface area of not less than 20 m2/g. Addition of titanium tetrachloride to hot water at 75 to 100° C. followed by hydrolysis at 75° C. to the boiling point of the mixture.Type: GrantFiled: October 24, 2001Date of Patent: November 12, 2002Assignee: Showa Denko KKInventors: Masahiro Ohmori, Tadashi Hamanaka, Hidenori Nakamura
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Patent number: 6458452Abstract: The present invention relates to titanium oxide particles having an average particle size of not more than 0.3 &mgr;m, and a BET specific surface area of 15 to 200 m2/g, containing a soluble sodium salt of not more than 230 ppm, calculated as Na, and a soluble sulfate of not more than 150 ppm, calculated as SO4, and having a pH value of not less than 8. The titanium oxide particles of the present invention are suitable as non-magnetic particles for a non-magnetic undercoat layer of a magnetic recording medium which uses magnetic particles containing iron as a main ingredient, and even more particularly, are suitable as non-magnetic particles for a non-magnetic undercoat layer of a magnetic recording medium which uses magnetic particles containing iron as a main ingredient, show an excellent dispersibility in a binder resin, contain only a small amount of soluble sodium salt and soluble sulfate, and have a pH value of not less than 8.Type: GrantFiled: December 17, 1999Date of Patent: October 1, 2002Assignee: Toda Kogyo CorporationInventors: Kazuyuki Hayashi, Keisuke Iwasaki, Yasuyuki Tanaka, Hiroko Morii
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Publication number: 20020131929Abstract: The present invention provides particulate titanium oxide and a production process thereof.Type: ApplicationFiled: March 15, 2001Publication date: September 19, 2002Inventors: Jun Tanaka, Susumu Kayama, Hayato Yamaya
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Patent number: 6444189Abstract: Titanium oxide particles are prepared from the reaction of an aqueous basic solution with (1) an aqueous acidic titanium salt solution, or (2) an aqueous salt solution of a titanium salt and an aqueous salt solution of a dopant metal salt. In preferred embodiments, the particles may range in size from 0.1 to 10 microns (10-6 meters), and possess relatively high bulk density combined with high surface area.Type: GrantFiled: April 26, 2000Date of Patent: September 3, 2002Assignee: E. I. du Pont de Nemours and CompanyInventors: Ying Wang, Donald Keith Swanson
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Patent number: 6440383Abstract: A hydrometallurgical process is provided for producing ultrafine or nano-sized titanium dioxide from titanium containing solutions, particularly titanium chloride solutions. The process is conducted by total evaporation of the solution, above the boiling point of the solution and below the temperature where there is significant crystal growth. Chemical control additives may be added to control particle size. Nano-sized elemental particles are formed after calcination. The titanium dioxide can be either anatase or rutile. Following calcination, the titanium dioxide is milled to liberate the elemental particles and provide a high quality nano-sized TiO2 with a narrow particle size distribution.Type: GrantFiled: February 14, 2000Date of Patent: August 27, 2002Assignee: Altair Nanomaterials Inc.Inventors: Willem P. C. Duyvesteyn, Timothy Malcome Spitler, Bruce James Sabacky, Jan Prochazka
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Publication number: 20020106321Abstract: The present invention provides particulate titanium oxide and a production process thereof.Type: ApplicationFiled: March 27, 2002Publication date: August 8, 2002Applicant: SHOWDA DENKO K.K.Inventors: Jun Tanaka, Susumu Kayama, Hayato Yamaya
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Patent number: 6429169Abstract: An amorphous titanium peroxide sol made by a process which includes adding an alkali hydroxide to an aqueous titanium salt solution and reacting the resulting amorphous titanium hydroxide with an aqueous hydrogen peroxide solution to obtain an amorphous titanium peroxide sol. The amorphous titanium peroxide sol is afterward raised to a temperature sufficient to obtain an anatase titanium oxide sol. The resulting anatase titanium oxide sol can thereafter be heated to a temperature sufficient to obtain anatase titanium oxide. The claimed compositions are useful as binders to support the particles of a photocatalyst on a variety of substrates.Type: GrantFiled: March 2, 2000Date of Patent: August 6, 2002Assignee: Saga-KenInventor: Hiromichi Ichinose
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Patent number: 6413490Abstract: Granules based on titanium dioxide with the characteristics: Average particle diameter: 10 to 150 &mgr;m BET surface area: 25 to 100 m2/g pH: 3 to 6 Compacted density: 400 to 1,200 g/l The granules are prepared by dispersing titanium dioxide in water, spray-drying and silanizing. In the silanized form, the granules have the following characteristics: Average particle diameter: 10 to 160 &mgr;m BET surface area: 15 to 100 m2/g pH: 3.0 to 9.0 Compacted density: 400 to 1,200 g/l Carbon content: 0.3 to 12.0 wt. % The granules are used, inter alia, as catalyst supports, in cosmetics, as sun screens, in silicone rubber, in toning powder, in lacquers and colorants, as grinding and polishing agents and as a raw material for producing glass and ceramics.Type: GrantFiled: June 23, 2000Date of Patent: July 2, 2002Assignee: Degussa-Huls AGInventors: Hilmar Gilges, Dieter Kerner, Jürgen Meyer
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Publication number: 20020082167Abstract: A process for making microporous structures that can be used as a catalyst support. The microporous structures have high porosity and high thermal stability, combined with good mechanical strength and relatively high surface area. The process is useful for making titanium dioxide for catalyst structures for use for fuel cells, sensors, electrochemical cells and the like.Type: ApplicationFiled: October 17, 2001Publication date: June 27, 2002Inventors: Bruce J. Sabacky, Timothy M. Spitler
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Patent number: 6403177Abstract: A method of removing ammonium ions or amines from contaminated water includes treating the water with sodium tetraphenylborate under acidic conditions. Advantageously, the tetraphenylborate is immobilized on polymer beads and the water is contacted with the beads or passed through a bed of the beads.Type: GrantFiled: November 2, 2000Date of Patent: June 11, 2002Assignee: Dalhousie UniversityInventors: T. Stanley Cameron, Osvald Knop, Neil S. Cameron, Elinor M. Cameron, G. Ronald Brown
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Publication number: 20020066338Abstract: High purity refractory metals, valve metals, refractory metal oxides, valve metal oxides, or alloys thereof suitable for a variety of electrical, optical and mill product/fabricated parts usages are produced from their respective oxides by metalothermic reduction of a solid or liquid form of such oxide using a reducing agent that establishes (after ignition) a highly exothermic reaction, the reaction preferably taking place in a continuously or step-wise moving oxide such as gravity fall with metal retrievable at the bottom and an oxide of the reducing agent being removable as a gas or in other convenient form and unreacted reducing agent derivatives being removable by leaching or like process.Type: ApplicationFiled: May 4, 2001Publication date: June 6, 2002Inventors: Leonid N. Shekhter, Terrance B. Tripp, Leonid L. Lanin, Anastasia M. Conlon, Howard V. Goldberg
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Patent number: 6399540Abstract: The present invention provides a porous titania, which has an anatase-form crystalline structure, an anatase-form crystallite diameter of 3 nm to 10 nm, a degree of anatase crystallinity of 60% or more, a BET specific surface area of 10 m2/g or more, a total pore volume of 0.05 cm3/g or more, and a volume for pores having a pore radius of 1 nm or more of 0.02 cm3/g or more, and the porous titania and the catalyst comprising the porous titania of the present invention exhibit an excellent catalytic activity for removal of nitrogen oxides, oxidation of organic substances, decomposition of dioxine compounds, as well as decomposition and removal of organic solvents, agricultural chemical and surfactant.Type: GrantFiled: August 9, 2000Date of Patent: June 4, 2002Assignee: Sumitomo Chemical Co., Ltd.Inventors: Yasuyuki Oki, Hironobu Koike, Yoshiaki Takeuchi
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Patent number: 6399033Abstract: An improvement to the chloride process of making titanium dioxide. By recycling some of the cyclone dust, the yield in the chlorination of titanium-containing raw materials can be increased. In order to prevent silica accumulation in the fluidized bed, the cyclone dust is divided into two fractions. An economic solution is described of a single-stage separation of the cyclone dust in a hydrocyclone, the majority of the titanium dioxide occurring in the hydrocyclone underflow, although the separation is not sharp. By grinding and drying the solids from the hydrocyclone underflow, the titanium dioxide particles returned to the lower region of the fluidized-bed reactor are rapidly chlorinated, while the quartz and coke particles are rapidly discharged again from the fluid bed, so that no silica contamination occurs.Type: GrantFiled: November 3, 1995Date of Patent: June 4, 2002Assignee: Kronos, Inc.Inventor: Achim Hartmann
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Patent number: 6387531Abstract: A collection of nanoscale particles are a composite of carbon and metal oxide or silicon oxide. The composite particles have an average diameter from about 5 nm to about 1000 nm, and can be produced by laser pyrolysis. The laser pyrolysis involves the formation of a molecular stream including a metal precursor, an infrared absorber, an oxidizing agent and a carbon precursor. The pyrolysis is driven by heat absorbed from a laser beam. Furthermore, nanoparticles including titanium oxide with a rutile crystal structure have been produced.Type: GrantFiled: July 27, 1998Date of Patent: May 14, 2002Assignee: NanoGram CorporationInventors: Xiangxin Bi, Sujeet Kumar, Nobuyuki Kambe
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Publication number: 20020051746Abstract: A process for producing a titanium oxide is provided which comprises the steps of (i) mixing an acidic solution of a titanium compound with a nitrogen-containing basic organic compound to obtain a reaction product and (ii) calcining the obtained product. The titanium oxide exhibits a high photocatalytic activity by visible light radiation.Type: ApplicationFiled: August 29, 2001Publication date: May 2, 2002Applicant: SUMITOMO CHEMICAL COMPANY, LIMITEDInventor: Kensen Okusako
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Patent number: 6375923Abstract: A hydrometallurgical process is provided for producing pigment grade TiO2 from titaniferous mineral ores, and in particular from ilmenite ore. The ore is leached with a hydrochloric acid, preferably a recycled solution at high hydrochloric acid concentration, to form a leachate containing titanium and iron chloride and a residue. The leachate may be filtered to separate the leachate from the residue. The leachate is cooled to a temperature sufficient to form crystals of FeCl2, which are separated from the leachate. The leachate may be subjected to a reduction step to reduce Fe+3 to Fe+2, before crystallizing. The leachate is subjected to a first solvent extraction to form a pregnant strip solution containing titanium and ferric ions and a raffinate containing ferrous ions. This strip solution is subjected to a second solvent extraction to form a second strip solution containing ferric ions and a raffinate containing titanium ions.Type: GrantFiled: February 7, 2000Date of Patent: April 23, 2002Assignee: Altair Nanomaterials Inc.Inventors: Willem P. C. Duyvesteyn, Bruce James Sabacky, Dirk Edmund Victor Verhulst, Paul George West-Sells, Timothy Malcome Spitler, Andrew Vince, James R. Burkholder, Bernardus Josephus Paulus Maria Huls
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Patent number: 6365555Abstract: A process for the preparation of nanostructured materials in high phase purities using cavitation is disclosed. The method comprises mixing a metal containing solution with a precipitating agent and passing the mixture into a cavitation chamber. The chamber consists of a first element to produce cavitation bubbles, and a second element that creates a pressure zone sufficient to collapse the bubbles. The process is useful for the preparation of mixed metal oxide catalysts and materials for piezoelectrics and superconductors.Type: GrantFiled: October 25, 1999Date of Patent: April 2, 2002Assignee: Worcester Polytechnic InstituteInventors: William R. Moser, Oleg V. Kozyuk, Josef Find, Sean Christian Emerson, Ivo M. Krausz
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Patent number: 6350946Abstract: A photoelectric conversion device having a photosensitive layer comprising semiconductor particles is disclosed, in which the semiconductor particles are obtained from a metal hydroxide gel or a precursor thereof present in a hydrophilic solvent. Also disclosed in a photoelectric cell including the photoelectric conversion device.Type: GrantFiled: September 11, 2000Date of Patent: February 26, 2002Assignee: Fuji Photo Film Co., Ltd.Inventors: Kiyoteru Miyake, Tadao Sugimoto
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Publication number: 20020021999Abstract: A titanium oxide showing sufficiently high photocatalytic activities by irradiation of visible light is provided. Using the titanium oxide, an excellent photocatalyst and photocatalyst coating composition are also provided. The titanium oxide has a selected ion chromatogram in which an evolution gas having 28 of a ratio of mass number to electric charge quantity exhibits at least one peak at about 600° C. or higher, the selected ion chromatogram being measured in a thermogravimetry-mass-spectroscopy.Type: ApplicationFiled: July 11, 2001Publication date: February 21, 2002Applicant: SUMITOMO CHEMICAL COMPANY, LIMITEDInventors: Yoshiaki Sakatani, Hiroyuki Ando, Hironobu Koike
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Publication number: 20020018741Abstract: Pyrogenically prepared titanium dioxide doped by means of an aerosol contains an oxide from the group zinc oxide, platinum oxide, magnesium oxide and/or aluminum oxide as the doping component.Type: ApplicationFiled: March 27, 2001Publication date: February 14, 2002Inventors: Ina Hemme, Helmut Mangold, Sven-Uwe Geissen, Anna Moiseev
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Publication number: 20020012628Abstract: A process for producing a titanium oxide is provided which comprises (i) a step of calcining a titanium compound in the presence of ammonia gas or (ii) steps of treating a titanium compound with heat in the presence of ammonia gas and calcining the heat-treated titanium compound. The titanium oxide obtained in the present invention exhibits a sufficiently high photocatalytic activity by irradiation of visible light.Type: ApplicationFiled: March 29, 2001Publication date: January 31, 2002Inventors: Yoshinari Sawabe, Yoshiaki Sakatani, Hironobu Koike
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Publication number: 20020006866Abstract: An interior member or indoor equipment provided on the surface with titanium oxide particles capable of excellent photocatalytic activity even by irradiation of a weak ultraviolet ray present in an interior room or the like. An interior member or indoor equipment with titanium oxide particles containing brookite-type crystal present on the surface thereof. The titanium oxide particles may also be bonded to the surface using an adhesive. The interior member or indoor equipment exhibits a photocatalytic function upon irradiation of a weak ultraviolet ray having irradiation energy of from 0.001 to 0.2 mW/cm2 at 365 nm.Type: ApplicationFiled: December 30, 1999Publication date: January 17, 2002Inventors: MASAHIRO OHMORI, HIDENORI NAKAMURA
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Patent number: 6328938Abstract: A method for the integration of a manufacturing facility with a salt dome, which manufacturing facility is one for the production of high purity titanium dioxide using chlorine as a reactant. The metal chlorides produced as a by-product of titanium dioxide production are reacted with sodium hydroxide to produce metal hydroxide precipitates in an aqueous sodium chloride solution, which is then conducted into a reservoir of brine in a salt dome. The metal hydroxide precipitates are allowed to settle and the sodium chloride solution mixes with the brine. A portion of the brine is conducted to the surface where it is decomposed to produce chlorine, hydrogen, and sodium hydroxide. The chlorine and sodium hydroxide are recycled for use in the overall integrated process.Type: GrantFiled: May 23, 2000Date of Patent: December 11, 2001Inventors: Timothy L. Taylor, Tommy G. Taylor
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Publication number: 20010046944Abstract: An object of the present invention is to provide a photocatalytic powder containing titanium dioxide fine particles containing an anionically active substance, where the electrokinetic potential of the fine particle is from about -100 to 0 mV in an aqueous environment at pH 5. Another object of the present invention is to provide a photocatalytic slurry containing the powder, and a polymer composition, a coating agent, a photocatalytic functional molded article and a photocatalytic functional structure using the powder.Type: ApplicationFiled: April 23, 2001Publication date: November 29, 2001Inventors: Katsura Ito, Hiroyuki Hagihara