Coating Or Binder Patents (Class 423/274)
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Patent number: 11325096Abstract: A microwave induced solvothermal method to prepare lithium thiophosphate composites including ?-Li3PS4 and crystalline Li7P3S11 is provided. The method is scaleable to commercial size production.Type: GrantFiled: July 24, 2018Date of Patent: May 10, 2022Assignee: Toyota Motor Engineering & Manufacturing North America, Inc.Inventors: John Muldoon, Patrick J. Bonnick, Koji Suto, Erika Nagai, Keita Niitani
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Patent number: 10723670Abstract: A blasting explosive composition containing a solid inorganic oxidising salt as the oxidizer component, a hydrocarbon liquid as the fuel component, and a binding agent. The composition can also contain an ammonium nitrate based emulsion. The binding agent can increase the water resistance, or increase the sleep time, of the explosive composition, or increase the fuel oil absorbency of the solid inorganic oxidising salt. The binding agent is selected from one or more of a long chain carboxylic acid and its salts and derivatives, especially those having from 8 to 100 or preferably 10 to 50 carbon units. The binding agent may preferably be selected from one or more of: dimer acid, trimer acid, polyisobutylene succinic anhydride, oleic acid, stearic acid, sorbitan tristearate, and their salts and esters.Type: GrantFiled: November 19, 2012Date of Patent: July 28, 2020Assignee: Dyno Nobel Asia Pacific Pty LimitedInventors: Emma McPhail, Brendan Griggs, Jeff Gore, Nathan Paris
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Patent number: 10259945Abstract: A pigment particle composition which comprises calcium carbonate particles and pigment particles, its method of manufacture and its use. According to the present invention, the calcium carbonate particles are carbonated so that they bind to each other, in which case calcium carbonate structures are generated, which comprise pigment particles and which form essentially opaque and stable pigment-calcium carbonate aggregates. It is possible to manufacture the composition by atomizing calcium hydroxide-bearing pigment slurry into a carbon dioxide-bearing gas, in which case the calcium hydroxide is carbonated in order to precipitate the calcium hydroxide particles to be attached to each other and the carbonation is continued until essentially all of the calcium hydroxide has been converted into calcium carbonate. The composition is suitable for use, among others, in paints, coating materials, fillers, polymers and printing inks.Type: GrantFiled: April 1, 2016Date of Patent: April 16, 2019Assignee: FP-PIGMENTS OYInventors: Mikko Maijala, Roope Maijala
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Patent number: 9776870Abstract: The disclosure features methods that include obtaining a first calcium hydroxide solution that includes a first concentration of calcium ions and a second calcium hydroxide solution that includes a second concentration of calcium ions, adding a phosphoric acid solution to the first calcium hydroxide solution to generate a combined solution featuring an aqueous suspension of calcium dihydrogen phosphate particles, and adding the second calcium hydroxide solution to the combined solution to form a product solution that includes an aqueous suspension of particles of a calcium phosphate composition.Type: GrantFiled: September 26, 2016Date of Patent: October 3, 2017Assignee: Clean World Technologies Ltd.Inventor: Lupércio Tarcísio de Oliveira
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Patent number: 9505891Abstract: Provided are: a resin composition that can be given excellent formability and wear resistance when used as a friction material or the like; and a method for producing the resin compound. A titanate compound, which is a salt of at least one element selected from the group consisting of alkali metals and alkaline earth metals, is dispersively contained in a thermosetting resin prior to curing.Type: GrantFiled: March 12, 2014Date of Patent: November 29, 2016Assignee: OTSUKA CHEMICAL CO., LTD.Inventors: Emiko Daimon, Takuya Nomoto
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Patent number: 9484574Abstract: The present invention relates to a process for the production of LiFePO4 powder, comprising the steps: a) providing an aqueous solution of an organic surfactant; b) providing an aqueous solution of an iron (II) salt and mixing said aqueous iron (II) salt solution with an aqueous solution of a phosphate, to provide a mixed iron (II) salt/phosphate solution having a stoichiometric ratio of Fe2+:phosphate of about 1:1; c) adding the mixed iron (II) salt/phosphate solution to the surfactant solution under constant stirring; d) providing an aqueous solution comprising a lithium salt, adding said aqueous solution comprising a lithium salt to said mixed iron (II) salt/phosphate solution to provide a mixture having a stoichiometric ratio of Fe2+:phosphate:lithium salt of about 1:1:3 and stirring the resulting mixture; e) heating the resulting mixture at 80-200° C.Type: GrantFiled: November 10, 2009Date of Patent: November 1, 2016Inventors: Silvia Bodoardo, Claudio Gerbaldi, Giuseppina Meligrana, Francesca Di Lupo, Nerino Penazzi, Daniela Fontana
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Patent number: 9309127Abstract: A reagent is provided for removing mercury (Hg). The reagent contains metal carbonates compound with layers structure. The contents of metals of reagent can be adjusted using this method. The reagent can be manufactured with kilogram grade per batch. The common ions, like Mg, Ca, Mn, Fe, Co, Ni, Cu, Zn, etc., can be contained in the reagent. The manufacture method provides a low-cost way for the Hg sorbent and the content ratio of metal oxides can be higher than 50 wt %. The manufacture is operated at a temperature more than 200° C. and can be integrated with existing technology such as denitration catalysts in industry for removing Hg. In another word, the present invention fabricates a mercury-removing reagent of metal-M/aluminum carbonates (M-Al—CO3), which can be potentially combined with commercially selective catalytic reduction (SCR) catalysts for developing medium-high-temperature mercury-removing reagent with mercury-removing efficiency further enhanced.Type: GrantFiled: August 4, 2014Date of Patent: April 12, 2016Assignee: INSTITUTE OF NUCLEAR ENERGY RESEARCH, ATOMIC ENERGY COUNCIL, Executive Yuan, R.O.C.Inventors: Ching-Tsung Yu, Han Wen Cheng, Hui-Mei Lin, Shu-San Hsiau
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Publication number: 20140093728Abstract: A carbon nanostructure that is free of a growth substrate can include a plurality of carbon nanotubes that are branched, crosslinked, and share common walls with one another. The carbon nanostructure can be released from a growth substrate in the form of a flake material. Optionally, the carbon nanotubes of the carbon nanostructure can be coated, such as with a polymer, or a filler material can be present within the porosity of the carbon nanostructure. Methods for forming a carbon nanostructure that is free of a growth substrate can include providing a carbon nanostructure adhered to a growth substrate, and removing the carbon nanostructure from the growth substrate to form a carbon nanostructure that is free of the growth substrate. Various techniques can be used to affect removal of the carbon nanostructure from the growth substrate. Isolation of the carbon nanostructure can further employ various wet and/or dry separation techniques.Type: ApplicationFiled: September 24, 2013Publication date: April 3, 2014Applicant: Applied Nanostructured Solutions, LLCInventors: Tushar K. SHAH, Harry Charles Malecki, Rajneeta Rachel Basantkumar, Han Liu, Corey Adam Fleischer, Joseph J. Sedlak, Jigar M. Patel, William Patrick Burgess, Jess Michael Goldfinger
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Patent number: 8685135Abstract: A method forming a potassium chloride particle form potassium chloride powder having resistance to moisture absorption and shrinkage. The original feedstock comprises potassium chloride in a size distribution of 30 mesh and 100 mesh as well as a gluten based binder.Type: GrantFiled: December 3, 2012Date of Patent: April 1, 2014Assignee: Karnalyte Resources Inc.Inventor: Robin Phinney
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Patent number: 8685359Abstract: An atomic carbon material and a preparation method thereof having ion adsorption ability superior to fullerenes and nano-tubes are provided. This atomic carbon material is in a state existing as an organic compound and in a state close to an atom with a diameter of 1 nm or less (theoretically about 1.66 angstrom), and is a bulk where they are congregated with each other with an interatomic force or a particle with a particle size of 1 nm or less. This atomic carbon material is manufactured by heating a raw material composed of an organic material which does not include carbon units in an inactive atmosphere at a predetermined temperature while sequentially increasing the temperature and by individually separating expected elements except for carbon in the aforementioned atmosphere and the organic material from being bonded with carbon by thermally decomposing in order from an element having a lower decomposition temperature at a temperature of 450 C or lower.Type: GrantFiled: April 5, 2005Date of Patent: April 1, 2014Inventor: Kunimichi Sato
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Publication number: 20130302428Abstract: A process for the preparation of carbon protected superparamagnetic or magnetic nanospheres is claimed which comprises the steps: (A) coating FexOy particles with an organic polymer, (B) coating the product obtained in step (A) with silica, (C) subjecting the product of step (B) to pyrolysis conditions, and (D) removing silica. According to present process, structurally stable carbon protected magnetic nanospheres were obtained, which can be dispersed in various solvents like water, EtOH, toluene, etc.Type: ApplicationFiled: November 9, 2011Publication date: November 14, 2013Applicants: DALIAN UNIVERSITY OF TECHNOLOGY, STUDIENGESELLSCHAFT KOHLE MBHInventors: Ferdi Schueth, Mathias Feyen, An-Hui Lu, Wen-Cui Li, Guang-Hui Wang, Tao Sun
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Patent number: 8535633Abstract: Process for the production of doped metal oxide particles, wherein the doping component is present on the surface in the form of domains, wherein in a first reaction zone, an oxidizable and/or —hydrolysable metal compound as dopant together with an atomization gas is atomized into a flow of metal oxide particles in a carrier gas, wherein the mass flow of the metal oxide particles und —the mass flow of the dopant are selected such that the doped metal oxide particles contain 10 ppm to 10 wt.Type: GrantFiled: October 10, 2006Date of Patent: September 17, 2013Assignee: Evonik Degussa GmbHInventors: Kai Schumacher, Rainer Golchert, Helmut Roth, Harald Alff, Matthias Rochnia
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Patent number: 8465718Abstract: The invention discloses nano/micron binary structured powders for superhydrophobic, self-cleaning applications. The powders are featured by micron-scale diameter and nano-scale surface roughness. In one embodiment, the average diameter is about 1-25 ?m, and the average roughness Ra is about 3-100 nm. The nano/micron binary structured powders may be made of silica, metal oxide, or combinations thereof.Type: GrantFiled: October 5, 2007Date of Patent: June 18, 2013Assignee: Industrial Technology Research InstituteInventors: Shih-Chieh Liao, Hsiu-Fen Lin, Jin-Ming Chen
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Patent number: 8435472Abstract: The present invention provides a method of preparing at least one nano-structured material of formula M1M2Xn comprising the step of treating: at least one compound having the formula [CX3(CX2)n(CH2)mCOO]pM1; and at least one compound having the formula [CX3(CX2)n(CH2)mCOO]pM2; wherein each X is the same or different and is selected from the group consisting of: halogens, O, S, Se, Te, N, P and As; each n is the same or different and is 0?n?10; each m is the same or different and is 0?m?10; each p is the same or different and is 1?p?5; each M1 is the same or different and is selected from the group consisting of: Li, Na, K, Rb, Cs, Fr, Be, Mg, Ca, Sr, Ba, Ra and NH4; each M2 is the same or different and is a metal ion. The present invention also provides uses of the nano-structured material prepared according to the method of the present invention.Type: GrantFiled: January 5, 2007Date of Patent: May 7, 2013Assignee: National University of SingaporeInventors: Guang-Shun Yi, Gan-Moog Chow
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Patent number: 8388927Abstract: Scorodite-type iron-arsenic compound particles in which the particle surface layer part comprise an iron-rich layer having an Fe/As molar ratio of at least 1.24. The particles can be obtained in a reaction process of feeding an oxygen-containing gas to an aqueous solution containing an arsenic(V) ion and an iron(II) ion to precipitate a scorodite-type iron-arsenic compound crystal at a pH of at most 2, in which an oxidizing agent is further added to the liquid before the end of the reaction (treatment A). The particles may also be obtained by a method comprising keeping a scorodite-type iron-arsenic compound particle of good crystallinity in contact with an iron ion-containing aqueous solution having a controlled pH of from 2 to 9 at 0 to 90° C. (treatment B). The scorodite-type iron-arsenic particles have good filterability and excellent arsenic release-preventing effect.Type: GrantFiled: May 12, 2010Date of Patent: March 5, 2013Assignee: Dowa Metals & Mining Co., Ltd.Inventors: Kenichi Inoue, Haruhiro Otani, Yoshihiro Honma
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Publication number: 20130039830Abstract: A method for removing impurities from silicon includes A) providing metallic silicon having impurities, B) mixing the metallic silicon with at least one halogenated polysilane of Formula SiXn, where X is halogen, which may be partially replaced by hydrogen, and where 1<n<2.5, and C) heating the metallic silicon so that there is at least partly a reaction of the impurities with the at least one halogenated polysilane or with a decomposition product of the at least one halogenated polysilane, wherein C) may take place before, during and/or after B).Type: ApplicationFiled: December 6, 2010Publication date: February 14, 2013Applicant: Spawnt Private S.à.r.l.Inventors: Norbert Auner, Christian Bauch, Sven Holl, Rumen Deltschew, Javad Mohsseni, Gerd Lippold, Thoralf Gebel
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Patent number: 8337799Abstract: The invention relates to a method for producing nanoparticles of at least one oxide of a transition metal selected from Ti, Zr, Hf, V, Nb and Ta, which are coated with amorphous carbon, wherein said method includes the following successive steps: (i) a liquid mixture containing as precursors at least one alkoxyde of the transition metal, an alcohol, and an acetic acid relative to the transition metal is prepared and diluted in water in order to form an aqueous solution, the precursors being present in the solution according to a molar ratio such that it prevents or sufficiently limits the formation of a sol so that the aqueous solution can be freeze-dried, and such that the transition metal, the carbon and the oxygen are present in a stoichiometric ratio according to which they are included in the nanoparticles; (ii) the aqueous solution is freeze-dried; (ii) the freeze-dried product obtained during the preceding step is submitted to pyrolysis under vacuum or in an inert atmosphere in order to obtain the nanoType: GrantFiled: June 6, 2008Date of Patent: December 25, 2012Assignees: Commissariat a l'Energie Atomique-CEA, Ecole Centrale de Paris-ECP, Centre National de la Recherche Scientifique (CNRS)Inventors: Christine Bogicevic, Fabienne Karolak, Gianguido Baldinozzi, Mickael Dollé, Dominique Gosset, David Simeone
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Patent number: 8329129Abstract: The present invention provides a method for preparing a pyrochlore type oxide having a larger specific surface area, a polymer electrolyte fuel cell and a fuel cell system improved in power generation efficiency and capable of being produced more inexpensively, and a method for producing an electro catalyst for a fuel cell, which electro catalyst has a larger specific surface area, is relatively inexpensive, and has high electrode activity per unit mass. A method for preparing a pyrochlore type oxide represented by A2B2O7-Z wherein A and B represent a metal element, Z represents a number of 0 or more and 1 or less, A includes at least one selected from the group consisting of Pb, Sn, and Zn, and B includes at least one selected from the group consisting of Ru, W, Mo, Ir, Rh, Mn, Cr, and Re, wherein the pyrochlore type oxide is produced by a reaction of a halide or nitrate of A with an alkali salt of a metal acid of B.Type: GrantFiled: February 10, 2010Date of Patent: December 11, 2012Assignee: JX Nippon Oil & Energy CorporationInventors: Yasushi Sato, Tamaki Mizuno, Yuri Seki
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Patent number: 8323371Abstract: A method forming a potassium chloride particle form potassium chloride powder having resistance to moisture absorption and shrinkage. The original feedstock comprises potassium chloride in a size distribution of 30 mesh and 100 mesh as well as a gluten based binder.Type: GrantFiled: August 12, 2009Date of Patent: December 4, 2012Assignee: Kamalyte Resources Inc.Inventor: Robin Phinney
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Patent number: 8318113Abstract: A solid composition comprises: —MnO2; and—a compound represented by the general formula (I) wherein: R is a polymer; each Y is independently a hydrogen or a negative charge; Z is either hydrogen or is not present; each n is independently 1, 2, 3, 4, 5 or 6; wherein the MnO2 is bound to the compound of formula (I) so as to coat the surface thereof. Such a composition may be used for the separation of polyvalent metal species, such as Mo, from one or more accompanying impurities.Type: GrantFiled: September 10, 2008Date of Patent: November 27, 2012Assignee: Mallinckrodt LLCInventor: Luis Antonio Miguel Marques Barbosa
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Publication number: 20120275981Abstract: The invention provides a process for producing nonpassivated silicon, which process comprises providing a sample of silicon and, under inert conditions, reducing the mean particle size in the sample by applying a mechanical force to the sample. The invention also provides nonpassivated silicon which is obtainable by such a process, and compositions which comprise the nonpassivated silicon. Further provided is a process for producing hydrogen, which process comprises contacting water with nonpassivated silicon, thereby producing hydrogen by hydrolysis of said silicon. The invention also provides a pellet for generating hydrogen, the pellet comprising nonpassivated silicon encapsulated within an organic coating.Type: ApplicationFiled: November 11, 2010Publication date: November 1, 2012Inventors: John Stuart Foord, Sobia Ashraf
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Patent number: 8242037Abstract: Methods of making and compositions of dense sintered ceramic nano- and micro-composite materials that are highly stable in a variety of conditions and exhibit superior toughness and strength. Liquid feed flame spray pyrolysis techniques form a plurality of nanoparticles (e.g., powder), each having a core region including a first metal oxide composition comprising Ce and/or Zr or other metals and a shell region including a second metal oxide composition comprising Al or other metals. In certain aspects, the core region comprises a partially stabilized tetragonal ZrO2 and the shell region comprises an ?-Al2O3 phase. The average actual density of the ceramic after sintering is greater than 50% and up to or exceeding 90% of a theoretical density of the ceramic.Type: GrantFiled: July 23, 2009Date of Patent: August 14, 2012Assignee: The Regents of the University of MichiganInventors: Richard M. Laine, Min Kim
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Patent number: 8192711Abstract: To provide a process for producing a surface modified lithium-containing composite oxide, which is excellent in discharge capacity, volume capacity density, safety, durability for charge and discharge cycles and an excellent rate property, at a low production cost. The present invention is characterized in that a process for producing a surface modified lithium-containing composite oxide, wherein a lithium titanium composite oxide is contained in the surface layer of particles of a lithium-containing composite oxide represented by the formula: LipNxMyOzFa, where N is at least one element selected from the group consisting of Co, Mn and Ni, M is at least one element selected from the group consisting of Al, Sn, alkaline earth metal elements and transition metal elements other than Co, Mn and Ni, 0.9?p?1.3, 0.9?x?2.0, 0?y?0.1, 1.9?z?4.2, and 0?a?0.Type: GrantFiled: October 27, 2009Date of Patent: June 5, 2012Assignee: AGC Seimi Chemical Co., Ltd.Inventors: Megumi Uchida, Takeshi Kawasato, Remi Hiraki
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Publication number: 20120076713Abstract: Process for the manufacture of a material on the basis of calcium- and/or magnesium carbonate having a reduced decrepitation tendency, wherein a material on the basis of calcium- and/or magnesium carbonate is treated with at least one additive selected among alkali metal compounds and/or acids and/or alkaline earth metal compounds in an amount of 0.05 to 5 wt. % based on the amount of the material on the basis of calcium- and/or magnesium carbonate. Also claimed are the material obtainable by the process and showing reduced decripitation tendancy and the use of such material in the manufacture of glass.Type: ApplicationFiled: September 18, 2009Publication date: March 29, 2012Applicant: Rheinkalk GmbHInventors: Christopher Pust, Arnd Pickbrenner, Matthias Rohmann, Marion Lorgouilloux, Marc Pelletier
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Publication number: 20120077059Abstract: The invention concerns a process for the production of a storage-stable barium sulphate, the barium sulphate produced thereby and the use thereof as an additive.Type: ApplicationFiled: May 28, 2009Publication date: March 29, 2012Inventors: Sonja Grothe, Jörg Hocken, Elke Gosch, Bernd Rohe, Peter Ebbinghaus, Jens Kohnert
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Patent number: 8106101Abstract: This invention relates to methods of making single phase nanocrystalline titanium dioxide. It is hereby provided a method for preparing single-phase anatase type titanium dioxide photocatalyst having a particle size of nano level at near room temperatures without the need for a sintering process at high temperatures.Type: GrantFiled: July 13, 2007Date of Patent: January 31, 2012Assignee: The Hong Kong Polytechnic UniversityInventors: Walid Abdelhamld Daoud, John Haozhong Xin, Kaihong Qi
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Patent number: 8038970Abstract: Disclosed are adhesive coating compositions containing a metal peroxide for producing clear colorless adhesive coatings on substrates, particularly micro particulate substrates. In one preferred embodiment the nanoparticle coatings are chemically active and function at a high level of efficiency due to the high total surface area of the micro particulate substrate. Also disclosed are coated substrates and compositions having nanoparticles bound to a substrate by the coating compositions.Type: GrantFiled: May 28, 2010Date of Patent: October 18, 2011Assignee: PURETI, Inc.Inventor: John W. Andrews
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Patent number: 7943112Abstract: Methods relate to making lithium vanadium oxide powders. Applications for the lithium vanadium oxide powders include use as a negative electrode or anode material for lithium ion batteries. Liquid phase reactions and reduction in vanadium oxidation state of precursor material facilitate in the making of the lithium vanadium oxide powders. Particles forming the lithium vanadium oxide powders may further contain carbon to provide electrical conductivity.Type: GrantFiled: May 24, 2010Date of Patent: May 17, 2011Assignee: ConocoPhillips CompanyInventors: Zhenhua Mao, Mark W. Carel
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Patent number: 7785553Abstract: A method for reducing the explosive potential of a nitrogen-based fertilizer product includes coating the product with a composition including a coal combustion by-product. The coal combustion by-product may be oxidized prior to coating the product, and further may be one or more of Class C fly ash, Class F fly ash, and flue gas desulfurization waste. A primary binder and one or more secondary binders may be included. The primary binder may be water. The secondary binder may be one or more of an organic and an inorganic binder.Type: GrantFiled: February 22, 2008Date of Patent: August 31, 2010Assignee: University of Kentucky Research FoundationInventor: Darrell N. Taulbee
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Patent number: 7744835Abstract: The invention relates to a nanostructured material. The material is a nanostructured carbonaceous material composed of agglomerates of small needles of Li1+?V3O8 and of ?-LixV2O5 (0.1???0.25 and 0.03?x?0.667) surrounded by a noncontinuous layer of spherical carbon particles. It is obtained by a process consisting in preparing a carbonaceous precursor gel by bringing carbon, ?-V2O5 and a Li precursor into contact in amounts such that the ratio of the [V2O5]/[Li] concentrations is between 1.15 and 1.5 and that the (carbon)/(carbon+V2O5+Li precursor) ratio by weight is from 10 to 15 and in subjecting the gel to a heat treatment comprising a 1st stage at 80° C.-150° C. for 3-12 h and a 2nd stage between 300° C. and 350° C. for 10 min to 1 hour, under an nitrogen or argon atmosphere. Applications: positive electrode active material.Type: GrantFiled: October 18, 2005Date of Patent: June 29, 2010Assignees: Batscap, Centre National de la Recherche ScientifiqueInventors: Dominique Guyomard, Joël Gaubicher, Marc Deschamps, Matthieu Dubarry, Philippe Moreau
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Patent number: 7731934Abstract: The invention relates to a novel form of titanium oxide. The titanium oxide is characterized in that it has the crystallographic structure of rutile with an orthorhombic lattice and a Pnmm space group, it has a platelet morphology, the platelets being of rectangular shape with a length between 3 and 10 nm, a width between 3 and 10 nm and a thickness of less than 1 nm and it has a specific surface area, determined by nitrogen adsorption/desorption, of 100 to 200 m2/g. Applications: self-cleaning glazing, photovoltaic cells.Type: GrantFiled: July 12, 2005Date of Patent: June 8, 2010Assignees: Universite Pierre et Marie Curie, Centre National de la Recherche ScientifiqueInventors: Sophie Cassaignon, Jean-Pierre Jolivet, Magali Koelsch
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Patent number: 7727501Abstract: Apparatus and method are disclosed for the production of compacted granular potassium chloride with improved handling qualities. A binding ingredient such as sodium hexametaphosphate is blended with the potassium chloride feed material in advance of compaction. The product of this apparatus and method has improved handling, storage, strength and other qualities over compacted granular potassium produced using prior art methods.Type: GrantFiled: May 3, 2004Date of Patent: June 1, 2010Assignee: The Mosaic CompanyInventors: Del Ferguson, Rob Plosz, Annette Revet, Doug LaRocque, Peter Jackson, Carey Heinbigner, Dave Zirk, Scott St. Germaine
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Patent number: 7709090Abstract: The particles comprise a core of calcium carbonate and a coating covering at least part of the surface of the core, the coating being carried out in at least two distinct consecutive steps, each step using a different coating agent. The coating agent used in the first step is preferably a fatty acid and the coating agent used in the second step is preferably a diol or a triol. The particles can be used as a functional filler, i.e. in plastisols formulations.Type: GrantFiled: January 20, 2005Date of Patent: May 4, 2010Assignee: Solvay (Societe Anonyme)Inventors: Christoph Nover, Kurt Schinninger
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Patent number: 7556793Abstract: A method of forming a shaped article includes forming a mixture which includes a titania hydrate pulp having a loss on ignition of from about 10 to 45 wt. %, a seed material comprising a titanium oxide, at least a portion of the titanium oxide being in a rutile form, and optionally a dispersion aid. The method includes forming the mixture into a shaped article and firing the shaped article. A shaped article suitable for use as a catalyst carrier is at least 90% titanium oxide, greater than 80% of the titanium oxide being in the rutile phase. The article has a surface area of at least 2.5 m2/g and a mercury pore volume of greater than 0.15 cc/g.Type: GrantFiled: June 6, 2005Date of Patent: July 7, 2009Assignee: Saint-Gobain Ceramics & Plastics, Inc.Inventor: Stephen L. Dahar
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Publication number: 20090117020Abstract: The present invention includes methods, coatings, and a nanostructured phospho-olivine composition LixMyPO4, capable of being formed hydrothermally or solvothermally in aqueous solutions and non-aqueous solutions M is one or more elements selected from the group consisting of Fe, Mn, Co, Ti, Ni, Cu, V, Mo, Zn, Mg, Cr, Al, Ga, B, Zr, Nb or combination thereof and x is between 0 and 1 and y is between 0.8 and 1.2. The phospho-olivine may also have the compositions like LixFe1-yMyPO4, wherein x is between 0 and 1, and y is between 0 and 1.Type: ApplicationFiled: June 13, 2008Publication date: May 7, 2009Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventors: Arumugam Manthiram, Arumugam Vadivel Murugan, Muraliganth Theivanayagam
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Patent number: 7517564Abstract: The invention is directed to a method by exposing at least a portion of a luminescent coating disposed on a surface of an article to ultraviolet light at one or more preselected wavelengths causing said luminescent coating to exhibit a luminescence spectrum, the luminescence spectrum exhibiting a plurality of intensity peaks that have been predetermined to create a standard; determining the intensity of at least two peaks in the luminescence spectrum of the coating; determining a peak intensity ratio of the at least two peaks; comparing the peak intensity ratio determined with the standard; and, classifying the article according to whether or not the peak intensity ratio does or does not match the standard; wherein the luminescent coating is a particulate luminescent composition comprising a rare earth doped fluoride represented by the chemical formula REx(CaaSrbBac)1?xF2+x?2yOy wherein RE represents a three-valent rare-earth element, 0.005?x?0.20, and 0?y?0.Type: GrantFiled: December 12, 2007Date of Patent: April 14, 2009Assignee: E.I. du Pont de Nemours and CompanyInventors: Michael Karl Crawford, Kurt Richard Mikeska
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Patent number: 7476370Abstract: The present invention provides a method for producing a sealed 210Pb—210Po ? source (? particle emitter) and an apparatus thereof, which can be used as an ? particle source for a random pulse generator. The method for producing a sealed 210Pb—210Po ? source (? particle emitter) includes the steps of: collecting 210Pb—210Po with a 210Pb collector using radon collection; precipitating the hydroxides of the collected 210Pb—210Po and collecting the precipitates by a polycarbonate (PC) filter; dissolving the 210Pb—210Po hydroxide precipitate to form a 210Pb—210Po radioactive thin film; and sealing the 210Pb—210Po radioactive thin film for protection.Type: GrantFiled: June 9, 2004Date of Patent: January 13, 2009Inventors: Hiroaki Mitsugashira, Noriyoshi Tsuyuzaki
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Patent number: 7470419Abstract: The present application relates to granules of powdery mineral particles produced by spray granulation of a liquid slurry comprising powdery minerals particles having particle size below 10 m, at least one water-reducing agent and/or at least one binder agent and/or at least one dispersing agent. The application further relates to a method for producing such granules.Type: GrantFiled: June 16, 2005Date of Patent: December 30, 2008Assignee: Elkem ASInventor: Tor Soyland Hansen
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Patent number: 7442351Abstract: The invention relates to a process for producing a stable solution containing Anatase titanium oxide intended to be deposited on a substrate in order to obtain a transparent photo-catalytic coating. Such a process includes the preparation of an initial stabilized peptized solution including a titanium precursor material, an organic solvent, an acid agent, the mixing of said initial solution with a large amount of water, the pH of the obtained intermediate solution being less then 3, subjecting said intermediate solution and its dispersion to a heat-treatment, the exchange of water by an organic solvent with low surface tension to obtain a final solution that is finally dispersed. The invention particularly allows to coat thermally sensitive and/or transparent substrates with photo-catalytic films of high optical quality.Type: GrantFiled: September 15, 2003Date of Patent: October 28, 2008Assignee: Koninklijke Philips Electronics, N.V.Inventors: Michel Langlet, Christophe Vautey, Alexei Kim
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Patent number: 7431908Abstract: Spherical tetragonal barium titanate particles of the present invention have a perovskite crystal structure, an average particle diameter of 0.05 to 0.5 ?m, a particle size distribution ?g of not less than 0.70, and a ratio of Ba to Ti of 0.99:1 to 1.01:1. The spherical tetragonal barium titanate particles exhibit an excellent dispersibility as well as a high denseness, a high purity and excellent permittivity properties.Type: GrantFiled: September 13, 2004Date of Patent: October 7, 2008Assignee: Toda Kogyo CorporationInventors: Toshiharu Harada, Yuji Mishima, Seiji Okazaki, Haruki Kurokawa, Hidetomo Unemoto, Kazuyoshi Murashige, Manabu Matsumoto, Tadashi Kanasaku
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Publication number: 20080090919Abstract: Provided is a modified blowing agent, wherein the surface of a blowing agent powder is coated with a metallic siloxylated compound. When the modified blowing agent is included in a polymer resin, dispersibility of the modified blowing agent is excellent in the polymer resin and fluidity of the polymer resin is improved in an extrusion molding machine and an injection molding machine, and thus productivity and processability can be improved. In addition, the foam that is formed using the polymer resin composition including the modified blowing agent has excellent tear strength, durability, and masking sound properties due to fine and uniform size of foam cells and increased number of foam cells per unit surface area.Type: ApplicationFiled: October 16, 2007Publication date: April 17, 2008Inventors: Yong Yon Jo, Heung Oh Son
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Patent number: 7144838Abstract: The present invention relates to a process for producing titanium dioxide pigment, which comprises a step of coating hydrolysis product of an alkylsilane compound represented by the following formula (1): (where R is an alkyl group having 5 or less carbon atoms, R? is a hydrolyzable group, and n is an integer of 1 to 3, m is an integer of 0 to 2, and n+m?3) by dry processing on surfaces of particles of titanium dioxide pigment. The present invention provides titanium dioxide pigment with distinguished hydrophobic property, dispersibility, and heat resistance.Type: GrantFiled: March 10, 2003Date of Patent: December 5, 2006Assignee: Ishihara Sangyo Kaisha, Ltd.Inventors: Hideo Takahashi, Toshihiko Akamatsu, Yuji Shigeno
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Patent number: 7135206Abstract: A method for producing nanoscale titanium dioxide particles which are coated with an oxide, a hydroxide or an oxide hydroxide of Al, Ce, Zr and/or Si wherein the enzymatic precipitant system urease/urea is used. Said coated titanium dioxide particles can have an average size of less than 50 nm, the coating providing effective protection against photocatalytic reactions. The coated particles are suitable, in particular, as UV absorbers in a transparent organic matrix.Type: GrantFiled: October 30, 2002Date of Patent: November 14, 2006Assignee: Leibniz-Institut Fuer Neue Materialien Gemeinnuetzige GmbHInventor: Martin Schichtel
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Patent number: 6984369Abstract: Disclosed is a process for making surfactant capped nanocrystals of metal oxides which are dispersable in organic solvents. The process comprises decomposing a metal cupferron complex of the formula MXCupX, wherein M is a metal, and Cup is a N-substituted N-Nitroso hydroxylamine, in the presence of a coordinating surfactant, the reaction being conducted at a temperature ranging from about 150 to about 400° C., for a period of time sufficient to complete the reaction. Also disclosed are compounds made by the process.Type: GrantFiled: November 22, 2000Date of Patent: January 10, 2006Assignee: The Regents of the University of CaliforniaInventors: A. Paul Alivisatos, Joerg Rockenberger
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Patent number: 6984746Abstract: A method of forming ?-alane. The method includes reacting aluminum trichloride and an alkali metal hydride to form an alane-ether complex solution. An aqueous ether solution is optionally added to the alane-ether complex solution to form a partially hydrolyzed ether/alane-ether complex solution. A solution of a crystallization additive is added to the alane-ether complex solution or to the aqueous ether/alane-ether complex solution to form a crystallization solution. The crystallization additive is selected from the group consisting of squalene, cyclododecatriene, norbornylene, norbornadiene, a phenyl terminated polybutadiene, 2,4-dimethyl anisole, 3,5-dimethyl anisole, 2,6-dimethyl anisole, polydimethyl siloxane, and mixtures thereof. Ether is removed from the crystallization solution to crystallize the ?-alane.Type: GrantFiled: September 22, 2004Date of Patent: January 10, 2006Assignee: Alliant Techsystems Inc.Inventors: Gary K. Lund, Jami M. Hanks, Harold E. Johnston
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Patent number: 6896861Abstract: Dangling bonds of silicon atoms tend to take place in silicon oxide grown on a silicon wafer due to oxygen deficiency; hypofluorous acid is introduced into the silicon oxide so that the hypofluorous acid reaches the dangling bonds through diffusion; the hypofluorous acid is decomposed into fluorine atoms and hydroxyl groups, and the fluorine atoms and hydroxyl groups deactivate the dangling bonds of silicon atoms; even if electric charges are injected into the silicon oxide, the deactivation is never broken so that the silicon oxide layer is stable and highly reliable.Type: GrantFiled: July 11, 2002Date of Patent: May 24, 2005Assignee: NEC CorporationInventor: Yoshiyuki Miyamoto
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Patent number: 6869596Abstract: A UV screening composition comprising particles which are capable of absorbing UV light so that electrons and positively charged holes are formed within the particles, characterised in that the particles are adapted to minimise migration to the surface of the particles of the electrons and/or the positively charged holes when said particles are exposed to UV light in an aqueous environment.Type: GrantFiled: May 27, 1999Date of Patent: March 22, 2005Assignee: ISIS Innovation LimitedInventors: John Sebastian Knowland, Peter James Dobson, Gareth Wakefield
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Patent number: 6803026Abstract: This invention relates to carbon black pellets obtained by compaction of carbon black powder in the presence of auxiliary substances, which pellets, despite the compaction, surprisingly exhibit greater color intensity than the powders on which they are based.Type: GrantFiled: September 14, 2000Date of Patent: October 12, 2004Assignee: Bayer Chemicals AGInventors: Günter Linde, Uwe Hempelmann, Manfred Eitel
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Patent number: 6793904Abstract: A method for the preparation of sodium percarbonate granules having enhanced stability, comprising modifying the surface of the sodium percarbonate granules by a surface reaction between sodium percarbonate and carbon dioxide or bicarbonate species to form a dense solid film of essentially sodium bicarbonate on the surface of the sodium percarbonate granules, the method comprising the steps of: a) dissolving carbon dioxide in water to form an aqueous solution containing dissolved carbon dioxide and bicarbonate, b) exposing the surface of the sodium percarbonate granules to a spray of the aqueous solution containing dissolved carbon dioxide and bicarbonate, to form the solid film of essentially sodium bicarbonate, and subsequently c) removing the residual fluid from the surface.Type: GrantFiled: January 28, 2002Date of Patent: September 21, 2004Inventors: Olof Norrlöw, Pentti Pekonen
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Patent number: 6790424Abstract: An environmentally friendly process for the production of precipitated calcium carbonate suitable for industrial application from a calcium carbonate-rich by-product of a nitrophosphate fertilizer plant. The process employs purification steps of calcination, carbonation and optional treatment with an emulsion of fatty acid or fatty acid derivatives.Type: GrantFiled: October 31, 2001Date of Patent: September 14, 2004Assignees: Council of Scientific and Industrial Research, Gujarat Narmada Valley Fertilizer Company LimitedInventors: Raksh Vir Jasra, Pravinchandra M. Oza, Rajesh S. Somani, Jatin R. Chunnawala, Mrinal V. Sheth, Vikram V. Thakkar, Yogi M. Badheka, Jayalekshmy Ayyer, Virendra B. Patel