Rare Earth Metal Base Singly Or In Combination Patents (Class 420/416)
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Patent number: 11344977Abstract: Boron and silicon free braze alloys are useful for structural repair of superalloy gas turbine engine components. The braze alloy compositions include nickel, chromium, titanium, and at least one of zirconium and hafnium. All of the above elements are metallic and form ductile bonds within and across the braze interface when compared to non-metallic bonds of boron and silicon.Type: GrantFiled: June 3, 2014Date of Patent: May 31, 2022Assignee: SIEMENS ENERGY, INC.Inventor: Kazim Ozbaysal
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Patent number: 11320093Abstract: Disclosed is a hydrogen storing method having improved energy efficiency by efficiently reusing heat through a heat circulation structure. Specifically, the hydrogen storing method includes supplying hydrogen by the supply device, compressing hydrogen received from the supply device by a compression device, receiving the hydrogen compressed by the compression device and storing the same in a storage device, and transferring heat generated from the storage device to the compression device, wherein the compression device and the storage device each include solid state hydrogen storage materials that cause an exothermic reaction when hydrogen is stored and an endothermic reaction when hydrogen is released.Type: GrantFiled: August 20, 2020Date of Patent: May 3, 2022Assignees: HYUNDAI MOTOR COMPANY, KIA MOTORS CORPORATIONInventors: Ji Hye Park, Dong Hoon Nam, Hoon Mo Park, Kyung Moon Lee
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Patent number: 10718035Abstract: Hydrometallurgical compositions are described in which organic amine-based lixiviants and organic amine-based pre-lixiviants are utilized in the selective recovery of rare earth elements. The lixiviant species can be regenerated in situ, permitting the organic amine to be used in substoichiometric amounts.Type: GrantFiled: November 21, 2016Date of Patent: July 21, 2020Assignee: Lixivia, Inc.Inventors: Michael D. Wyrsta, Zachary J. A. Komon
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Patent number: 10202279Abstract: Provided are a CaMg2-based alloy hydride material for hydrolysis production of hydrogen, a preparation method therefor and a use thereof. The material has a general formula of CaMgxMyHz, wherein M is Ni, Co or Fe, 1.5?x<2.0, 0<y?0.5, and 3?z<6. The preparation method for the material comprises the following steps: (1) stacking three pure metal block materials in a crucible, wherein a metal block material M is placed at the top; (2) installing the crucible in a high-frequency induction melting furnace, evacuating and introducing an argon gas; (3) starting the high-frequency induction melting furnace to heat at a low power first, then increasing the power to uniformly fuse same; and thereafter cooling with the furnace to obtain an alloy ingot, and hammer-milling to obtain a hydrogen storage alloy based on CaMg2; and (4) hydrogenating the hammer-milled hydrogen storage alloy to obtain the material for hydrolysis production of hydrogen. The preparation method is simple and low in cost.Type: GrantFiled: December 29, 2015Date of Patent: February 12, 2019Assignee: SOUTH CHINA UNIVERSITY OF TECHNOLOGYInventors: Liuzhang Ouyang, Ruoming Duan, Hui Wang, Jiangwen Liu, Min Zhu
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Patent number: 10080811Abstract: The present Invention relates to the monitoring of biological substances, such as non-invasive monitoring of such substances in animal, for examples biomarkers and metabolites. Specifically, the invention further relates to such monitoring using rare earth tagged marker compounds. The invention further relates to such monitoring using laser spectroscopy or Raman spectroscopy. The invention further relates to the use of such monitoring in disease states, such as stroke, neurological disorders and cardiovascular disorders.Type: GrantFiled: March 7, 2013Date of Patent: September 25, 2018Assignee: University of LeedsInventors: Sikha Saha, Gin Jose, Animesh Jha
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Patent number: 9725788Abstract: A method of treating rare earth metal-bearing permanent magnet scrap, waste or other material in a manner to recover the heavy rare earth metal content separately from the light rare earth metal content. The heavy rare earth metal content can be recovered either as a heavy rare earth metal-enriched iron based alloy or as a heavy rare earth metal based alloy.Type: GrantFiled: July 15, 2015Date of Patent: August 8, 2017Assignee: Iowa State University Research Foundation, Inc.Inventors: Ryan T. Ott, Ralph W. McCallum, Lawrence L. Jones
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Publication number: 20150125338Abstract: Identifying a stable phase of a binary alloy comprising a solute element and a solvent element. In one example, at least two thermodynamic parameters associated with grain growth and phase separation of the binary alloy are determined, and the stable phase of the binary alloy is identified based on the first thermodynamic parameter and the second thermodynamic parameter, wherein the stable phase is one of a stable nanocrystalline phase, a metastable nanocrystalline phase, and a non-nanocrystalline phase.Type: ApplicationFiled: March 12, 2012Publication date: May 7, 2015Inventors: Heather Murdoch, Christopher A. Schuh
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Patent number: 8980169Abstract: Provided are high-purity lanthanum, wherein the purity excluding rare-earth elements and gas components is 4N or higher, and amounts of aluminum, iron and copper in the lanthanum are respectively 100 wtppm or less; as well as high-purity lanthanum, wherein the purity excluding rare-earth elements and gas components is 4N or higher, amounts of aluminum, iron and copper in the lanthanum are respectively 100 wtppm or less, oxygen content is 1500 wtppm or less, elements of alkali metals and alkali earth metals are respectively 1 wtppm or less, elements of transition metals and high-melting-point metals other than those above are respectively 10 wtppm or less, and radioactive elements are respectively 10 wtppb or less. The invention aims to provide technology capable of efficiently and stably providing high-purity lanthanum, a sputtering target comprising high-purity lanthanum, and a thin film for metal gate mainly comprising high-purity lanthanum.Type: GrantFiled: October 31, 2008Date of Patent: March 17, 2015Assignee: JX Nippon Mining & Metals CorporationInventors: Masahiro Takahata, Yuichiro Shindo, Gaku Kanou
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Publication number: 20150010812Abstract: Provided is an alloy powder for an electrode which enables an alkaline storage battery to have both excellent discharge characteristics and excellent life characteristics. The alloy powder includes a hydrogen storage alloy including an element L, Mg, Ni, Al, and an element Ma. The element L is at least one selected from the group consisting of group 3 elements and group 4 elements of the periodic table (excluding Y). The element Ma is at least two selected from the group consisting of Ge, Y, and Sn. A molar proportion x of Mg in a total of the element L and Mg is 0.008?x?0.54. A molar proportion y of Ni, a molar proportion ? of Al, and a molar proportion ? of the element Ma, per the foregoing total is 1.6?y?4, 0.008???0.32, and 0.01???0.12, respectively.Type: ApplicationFiled: December 5, 2013Publication date: January 8, 2015Applicant: PANASONIC CORPORATIONInventors: Hideaki Ohyama, Shinichi Sumiyama, Akiko Okabe, Yasushi Nakamura, Kiyoshi Hayashi, Fumio Kato
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Publication number: 20140348203Abstract: Provided in one embodiment is a method of identifying a stable phase of an ordering binary alloy system comprising a solute element and a solvent element, the method comprising: determining at least three thermodynamic parameters associated with grain boundary segregation, phase separation, and intermetallic compound formation of the ordering binary alloy system; and identifying the stable phase of the ordering binary alloy system based on the first thermodynamic parameter, the second thermodynamic parameter and the third thermodynamic parameter by comparing the first thermodynamic parameter, the second thermodynamic parameter and the third thermodynamic parameter with a predetermined set of respective thermodynamic parameters to identify the stable phase; wherein the stable phase is one of a stable nanocrystalline phase, a metastable nanocrystalline phase, and a non-nanocrystalline phase.Type: ApplicationFiled: May 20, 2014Publication date: November 27, 2014Applicant: Massachusetts Institute of TechnologyInventors: Heather A. Murdoch, Christopher A. Schuh
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Publication number: 20140199203Abstract: A high-purity lanthanum, characterized by having a purity of 5N or more excluding rare earth elements and gas components, and ?-ray count number of 0.001 cph/cm2 or less. A method for producing the high-purity lanthanum characterized by obtaining lanthanum crystal by subjecting a crude lanthanum metal raw material having a purity of 4N or less excluding the gas component to molten salt electrolysis at a bath temperature of 450 to 700° C., subjecting the lanthanum crystal to de-salting treatment, and removing volatile substances by performing electron beam melting, wherein the high-purity lanthanum has a purity of 5N or more excluding rare earth elements and gas components, and ?-ray count number of 0.001 cph/cm2 or less. The object of the present invention is providing a technique capable of efficiently and stably providing a high-purity lanthanum with low ?-ray, a sputtering target made from the high-purity lanthanum, and a metal gate thin film having the high-purity lanthanum as the main component.Type: ApplicationFiled: September 4, 2012Publication date: July 17, 2014Applicant: JX NIPPON MINING & METALS CORPORATIONInventors: Masahiro Takahata, Kazuyuki Satoh, Takeshi Gohara, Satoyasu Narita
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Publication number: 20140158950Abstract: Nanocrystals comprising organic ligands at surfaces of the plurality of nanocrystals are provided. The organic ligands are removed from the surfaces of the nanocrystals using a solution comprising a trialkyloxonium salt in a polar aprotic solvent. The removal of the organic ligands causes the nanocrystals to become naked nanocrystals with cationic surfaces.Type: ApplicationFiled: November 12, 2013Publication date: June 12, 2014Applicant: The Regents of The University of CaliforniaInventors: Brett Anthony Helms, Delia Jane Milliron, Evelyn Louise Rosen, Raffaella Buonsanti, Anna Llordes
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Publication number: 20140140884Abstract: Provided are high-purity yttrium and a high-purity yttrium sputtering target each having a purity, excluding rare earth elements and gas components, of 5 N or more and containing 1 wt ppm or less of each of Al, Fe, and Cu; a method of producing high-purity yttrium by molten salt electrolysis of a raw material being a crude yttrium oxide having a purity, excluding gas components, of 4N or less at a bath temperature of 500° C. to 800° C. to obtain yttrium crystals, desalting treatment, water washing, and drying of the yttrium crystals, and then electron beam melting for removing volatile materials to achieve a purity, excluding rare earth elements and gas components, of 5N or more; and a technology capable of efficiently and stably providing high-purity yttrium, a sputtering target composed of the high-purity yttrium, and a metal-gate thin film mainly composed of the high-purity yttrium.Type: ApplicationFiled: September 15, 2011Publication date: May 22, 2014Applicant: JX NIPPON MINING & METALS CORPORATIONInventor: Masahiro Takahata
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Publication number: 20140124366Abstract: High-purity erbium having a purity of 5N or higher excluding rare earth elements and gas components, and containing Al, Fe, Cu, and Ta each in an amount of 1 wtppm or less, W in an amount of 10 wtppm or less, carbon in an amount of 150 wtppm or less, alkali metals and alkali earth metals each in an amount of 1 wtppm or less, other transition metal elements in a total amount of 10 wtppm or less, and U and Th as radioactive elements each in an amount of 10 wtppb or less. An object of this invention is to provide a method of highly purifying erbium, which has a high vapor pressure and is difficult to refine in a molten state, as well as technology for efficiently and stably providing high-purity erbium obtained with the foregoing method, a sputtering target made of high-purity erbium, and a metal gate film having high-purity erbium as a main component thereof.Type: ApplicationFiled: September 15, 2011Publication date: May 8, 2014Applicant: JX NIPPON MINING & METALS CORPORATIONInventor: Masahiro Takahata
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Patent number: 8668785Abstract: Provided is a method of producing high purity ytterbium, wherein the high purity ytterbium is obtained by reducing crude ytterbium oxide in a vacuum with reducing metals composed of metals having a low vapor pressure, and selectively distilling ytterbium. Additionally provided are methods of achieving the high purification of ytterbium which has a high vapor pressure and is hard to refine in a molten state, and high purity ytterbium obtained thereby. Further provided is technology for efficiently and stably obtaining a sputtering target made of high purity material ytterbium, and a thin film for metal gates containing high purity material ytterbium.Type: GrantFiled: September 24, 2008Date of Patent: March 11, 2014Assignee: JX Nippon Mining & Metals CorporationInventors: Yuichiro Shindo, Kazuto Yagi
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Patent number: 8551396Abstract: Provided herein are materials that can achieve up to 14% hydrogen absorption by weight in ambient conditions, which is a marked improvement over the hydrogen absorption values found in the prior art. Further provided are experimental conditions necessary to produce these materials. In order to produce the hydrogen storage material, a transition metal (or Lithium) is vaporized in a pi bond gas in conditions that permit only a few bonding collisions to occur between the vaporized transition metal atoms and pi bond gas molecules before the resulting bonded material is collected.Type: GrantFiled: April 18, 2008Date of Patent: October 8, 2013Assignee: University of Virginia Patent FoundationInventors: Bellave S. Shivaram, Adam B. Phillips
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Publication number: 20130251942Abstract: This invention relates generally to an article that includes a base substrate and a hydrophobic coating on the base substrate, wherein the hydrophobic coating includes a rare earth element material (e.g., a rare earth oxide, a rare earth carbide, a rare earth nitride, a rare earth fluoride, and/or a rare earth boride). An exposed surface of the hydrophobic coating has a dynamic contact angle with water of at least about 90 degrees. A method of manufacturing the article includes providing the base substrate and forming a coating on the base substrate (e.g., through sintering or sputtering).Type: ApplicationFiled: March 23, 2012Publication date: September 26, 2013Inventors: Gisele Azimi, Kripa K. Varanasi, Rajeev Dhiman, Adam T. Paxson, Kyukmin Kwon
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Publication number: 20130241010Abstract: A method for producing high-purity lanthanum having a purity of 4N or more excluding rare earth elements other than lanthanum and gas components, wherein lanthanum having a purity of 4N or more is produced by reducing, with distilled calcium, a lanthanum fluoride starting material that has a purity of 4N or more excluding rare earth elements other than lanthanum and gas components, and the obtained lanthanum is subjected to electron beam melting to remove volatile substances. The method for producing high-purity lanthanum, in which Al, Fe, and Cu are respectively contained in the amount of 10 wtppm or less. The method for producing high-purity lanthanum, in which total content of gas components is 1000 wtppm or less. The present invention aims to provide a technique capable of efficiently and stably providing high-purity lanthanum, a sputtering target composed of high-purity lanthanum, and a thin film for metal gate that contains high-purity lanthanum as a main component.Type: ApplicationFiled: November 14, 2011Publication date: September 19, 2013Applicant: JX NIPPON MINING & METALS CORPORATIONInventors: Masahiro Takahata, Takeshi Gohara
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Patent number: 8530371Abstract: A catalyst for diesel particle filter includes a platinum (Pt)-neodymium (Nd) alloy that is carried in silica, a preparation method thereof and a soot reduction device for diesel engine including the same, wherein the catalyst for diesel particle filter can maintain high catalyst activity and implement high nitrogen monoxide (NO) conversion efficiency even though it is used under the high temperature or vulcanization condition for a long time.Type: GrantFiled: November 15, 2010Date of Patent: September 10, 2013Assignees: Hyundai Motor Company, Kia Motors CorporationInventors: Ho-In Lee, Yeon-Su Kim, Yong-Kwon Chung, Jin Ha Lee, Jie Won Park
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Publication number: 20130202964Abstract: A hydrogen storage alloy wherein elution of Co, Mn, Al, and the like elements into an alkaline electrolyte is inhibited, an anode for a nickel-hydrogen rechargeable battery employing the alloy, and a nickel-hydrogen rechargeable battery having the anode.Type: ApplicationFiled: August 19, 2011Publication date: August 8, 2013Applicant: SANTOKU CORPORATIONInventors: Takayuki Otsuki, Hiroki Hayashi
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Patent number: 8486852Abstract: A catalyst for diesel particle filter includes a platinum (Pt)-neodymium (Nd) alloy that is carried in silica, a preparation method thereof and a soot reduction device for diesel engine including the same, wherein the catalyst for diesel particle filter can maintain high catalyst activity and implement high nitrogen monoxide (NO) conversion efficiency even though it is used under the high temperature or vulcanization condition for a long time.Type: GrantFiled: July 16, 2012Date of Patent: July 16, 2013Assignees: Hyundai Motor Company, Kia Motors CorporationInventors: Ho-In Lee, Yeon-Su Kim, Yong-Kwon Chung, Jin Ha Lee, Jie Won Park
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Patent number: 8481210Abstract: An alkaline storage battery has a negative electrode using a hydrogen-absorbing alloy represented by a general formula Ln1-xMgxNiyAz wherein Ln is at least one element selected from rare-earth elements including Y, Ca, Zr, and Ti, A is at least one element selected from Co, Fe, Mn, V, Cr, Nb, Al, Ga, Zn, Sn, Cu, Si, P and B, and 0.15?x?0.30, 0<z?1.5, and 2.8?y+z?4.0 are satisfied. The hydrogen-absorbing alloy has a hexagonal system crystal structure or a rhombohedral system crystal structure as its main phase and has a subphase of line which average number of not less than 50 nm in thickness existing in the range of 10 ?m×10 ?m in the cross section of the main phase is 3 or less.Type: GrantFiled: November 12, 2010Date of Patent: July 9, 2013Assignee: SANYO Electric Co., Ltd.Inventors: Jun Ishida, Yoshifumi Magari, Shigekazu Yasuoka
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Publication number: 20130087248Abstract: A method for producing a sintered R-T-B based magnet includes the steps of: providing a sintered R-T-B based magnet body 1; providing an RH diffusion source including a heavy rare-earth element RH (which is at least one of Dy and Tb) and 30 mass % to 80 mass % of Fe; loading the sintered R-T-B based magnet body 1 and the RH diffusion source 2 into a processing chamber 3 so that the magnet body 1 and the diffusion source 2 are movable relative to each other and are readily brought close to, or in contact with, each other; and performing an RH diffusion process in which the sintered magnet body 1 and the RH diffusion source 2 are heated to a processing temperature of more than 850° C. through 1000° C. while being moved either continuously or discontinuously in the processing chamber.Type: ApplicationFiled: July 12, 2011Publication date: April 11, 2013Inventor: Futoshi Kuniyoshi
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Patent number: 8372435Abstract: Nanoparticles are functionalized for use as bio-imaging probes using a novel, modular approach. Particle surface modification is based on a phosphonate monolayer platform on which was built a multi-segmented, multi-functional film: the first segment provided hydrolytic stability, the second aqueous suspendability, and the third, selectivity for cell attachment. In vitro imaging experiments visualized nanoparticle-cell surface binding. Peptide-derivatized nano-particles were not displaced from cells by soluble peptide. Methods for coating the host particles and use of rare earth ion-doped particles in imaging methods and photodynamic therapy methods are also disclosed.Type: GrantFiled: June 22, 2009Date of Patent: February 12, 2013Assignee: Princeton UniversityInventors: Jeffrey Schwartz, Christopher A. Traina, Thomas Joseph Dennes
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Patent number: 8338051Abstract: This invention relates to an electrode catalyst for a fuel cell comprising catalyst metal particles of noble metal-base metal-Ce (cerium) ternary alloy carried on carbon materials, wherein the noble metal is at least one member selected from among Pt, Ru, Rh, Pd, Ag and Au, the base metal is at least one member selected from among Ir, Co, Fe, Ni and Mn, and the relative proportion (i.e., the molar proportion) of noble metal:base metal:Ce (cerium) is 20 to 95:5 to 60:0.1 to 3. The electrode catalyst for a fuel cell inhibits deterioration of an electrolyte membrane or an electrolyte in an electrode catalyst layer, improves durability, and, in particular, improves the capacity for power generation in the high current density region.Type: GrantFiled: June 11, 2008Date of Patent: December 25, 2012Assignees: Toyota Jidosha Kabushiki Kaisha, Cataler CorporationInventors: Hiroaki Takahashi, Yosuke Horiuchi, Takahiro Nagata, Tomoaki Terada, Toshiharu Tabata
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Publication number: 20120315182Abstract: A method for preparing R5X4 alloy materials where R is a rare earth element selected from one or more of La, Ce, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Lu, Sc, and Y and X represents a non-rare earth alloying element such as silicon, germanium, tin, lead, gallium, indium and mixtures thereof. The method involves carbothermically reducing amounts of a rare earth element-containing oxide, an alloying element-containing oxide and/or alloying element in elemental or alloy form, and carbon at elevated temperature to form an R5X4 alloy material, which is melted, solidified, and optionally heat treated. Such a method provides an economical and efficient technique of configuring magnetic refrigerant, magnetostrictive and magnetoresistive alloys and products.Type: ApplicationFiled: April 18, 2012Publication date: December 13, 2012Inventors: Karl A. Gschneider, JR., Frederick A. Schmidt, Alexandra O. Tsokol, Vitalij K. Pecharsky, Lawrence L. Jones, Paul B. Wheelock
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Publication number: 20120308839Abstract: A method for assembling at least two parts made of silicon carbide-based materials by non-reactive brazing is disclosed. The two parts are contacted with a non-reactive brazing composition. The assembly formed by the parts and the brazing composition is heated to a sufficient brazing temperature sufficient to melt the brazing composition. The parts and the brazing composition are cooled so that, after solidification of the brazing composition, a moderately refractory joint is formed. The non-reactive brazing composition is a binary alloy composed, in mass percentages, of about 46% to 99% silicon and 54% to 1% neodymium.Type: ApplicationFiled: September 3, 2010Publication date: December 6, 2012Inventors: Valérie Chaumat, Jean-François Henne
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Publication number: 20120282132Abstract: Methods of the invention allow rapid production of high-porous, large-surface-area nanostructured metal and/or metal oxide at attractive low cost applicable to a wide variety of commercial applications such as sensors, catalysts and photovoltaics.Type: ApplicationFiled: July 13, 2010Publication date: November 8, 2012Inventors: James J. Watkins, Christos Fotios Karanikas, David Reisner, Xinqing Ma, Jeff Roth, T. Danny Xiao, Stephen Paul Murphy
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Publication number: 20120174597Abstract: A magnetic material for magnetic refrigeration of an embodiment has a composition represented by the formula, Gd100-x-y(HoxEry), and satisfies 0<x+y?25 and 0?y/(x+y)?0.6.Type: ApplicationFiled: March 16, 2012Publication date: July 12, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Shiori Kaji, Akiko Saito, Tadahiko Kobayashi
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Publication number: 20120148436Abstract: Nanomaterial preparation methods, compositions, and articles are disclosed and claimed. Such methods can provide nanomaterials with improved morphologies relative to previous methods. Such materials are useful in electronic applications.Type: ApplicationFiled: November 4, 2011Publication date: June 14, 2012Inventors: David R. Whitcomb, William D. Ramsden, Doreen C. Lynch
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Publication number: 20120091404Abstract: The inventors demonstrate herein that various Zintl compounds can be useful as thermoelectric materials for a variety of applications. Specifically, the utility of Ca3AlSb3, Ca5Al2Sb6, Ca5In2Sb6, Ca5Ga2Sb6, is described herein. Carrier concentration control via doping has also been demonstrated, resulting in considerably improved thermoelectric performance in the various systems described herein.Type: ApplicationFiled: October 19, 2011Publication date: April 19, 2012Applicant: CALIFORNIA INSTITUTE OF TECHNOLOGYInventors: G. Jeffrey Snyder, Eric Toberer, Alex Zevalkink
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Publication number: 20110311456Abstract: A marker alloy foreign implant made of a biodegradable metallic material and having the composition MgxYbyMz wherein x is equal to 10-60 atomic percent; y is equal to 40-90 atomic percent; z is equal to 0-10 atomic percent; M is one or more element selected from the group consisting of Ag, Zn, Au, Ga, Pd, Pt, Al, Sn, Ca, Nd, Ba, Si, and Ge; and wherein x, y, and z, together, and including contaminants caused by production, result in 100 atomic percent.Type: ApplicationFiled: June 20, 2011Publication date: December 22, 2011Applicant: BIOTRONIK VI PATENT AGInventors: Bruno Zberg, Bodo Gerold, Joerg Loeffler
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Publication number: 20110306508Abstract: The presence of mycotoxins in agricultural products necessitates large scale testing of a wide range of sample material to ensure the safety of food and feed. The mycotoxin ochratoxin A represents an enablement for all mycotoxins as the level of sensitivity necessary for regulatory requirements for this compound at the part per billion level are as low or lower than any other mycotoxin. This invention describes the identification of a set of DNA ligands with sufficiently high binding affinity and specificity for ochratoxin A to enable an improvement over existing methods for the separation, concentration and quantitative determination of ochratoxin A in sample material.Type: ApplicationFiled: January 9, 2009Publication date: December 15, 2011Inventors: Gregory Allen Penner, Jorge Andres Cruz-Aguado
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Publication number: 20110300017Abstract: Provided are a method for manufacturing high-purity erbium, wherein crude erbium oxide is mixed with reducing metal, erbium is reduced and distilled by heating the mixture in a vacuum, and the distillate is melted in an inert atmosphere to obtain high-purity erbium; and high-purity erbium, wherein the purity excluding rare-earth elements and gas components is 4 N or higher and the oxygen content is 200 wtppm or less. An object of this invention is to provide a method of highly purifying erbium, which has a high vapor pressure and is difficult to be refined in a molten metal state, as well as technology for efficiently and stably providing high-purity erbium obtained with the foregoing method, a sputtering target composed of high-purity erbium, and a metal gate film having high-purity erbium as a main component.Type: ApplicationFiled: January 13, 2010Publication date: December 8, 2011Applicant: JX NIPPON MINING & METALS CORPORATIONInventors: Yuichiro Shindo, Kazuto Yagi
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Publication number: 20110113844Abstract: A mobile energy carrier with which energy in the form of materials from zones distributed widely throughout the world, for example with a large amount of solar energy, wind energy or other CO2-neutral energy, for example the equator, can be transported to zones where there is a high energy requirement, for example Europe.Type: ApplicationFiled: June 29, 2009Publication date: May 19, 2011Inventor: Günter Schmid
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Publication number: 20110043777Abstract: A target material is configured to be used in a source constructed and arranged to generate a radiation beam having a wavelength in an extreme ultraviolet range. The target material includes a Gd-based composition configured to modify a melting temperature of Gd.Type: ApplicationFiled: March 20, 2009Publication date: February 24, 2011Applicant: ASML Netherlands B.V.Inventors: Vladimir Mihailovitc Krivtsun, Vadim Yevgenyevich Banine, Arno Jan Bleeker, Vladimir Vitalevitch Ivanov, Konstantin Nikolaevitch Koshelev, Johannes Hubertus Josephina Moors, Sergey Churilov, Denis Glushkov
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Publication number: 20110015325Abstract: A polymer additive for improving the reheat characteristics of a polymer or polymeric composition comprises an inorganic material which is such that a 2.5 mm thick polyethylene terephthalate plaque incorporating the inorganic material has, when tested, an absorption ratio of less than 0.9, wherein the absorption ratio is either the ratio of A1/A2 or the ratio A1/A3, wherein: A1 is the maximum absorption between 400 nm and 550 nm; A2 is the maximum absorption between 700 to 1100 nm; A3 is the maximum absorption between 700 to 1600 nm. Preferred inorganic materials are titanium nitride, indium tin oxide and lanthanum hexaboride.Type: ApplicationFiled: September 22, 2010Publication date: January 20, 2011Inventors: Anthony Jarvis, Mark Frost, Mark Rule
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Patent number: 7858024Abstract: Non-evaporable getter alloys, such as Y 75%-Mn 15%-Al 10%, are provided and can be activated at relatively low temperatures and have good properties in sorbing a wide variety of gases, particularly hydrogen.Type: GrantFiled: May 29, 2007Date of Patent: December 28, 2010Assignee: Saes Getters S.p.A.Inventors: Alberto Coda, Alessio Corazza, Alessandro Gallitognotta, Luca Toia, Paola Baronio, Magda Bovisio
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Publication number: 20100272596Abstract: Provided are high-purity lanthanum, wherein the purity excluding rare-earth elements and gas components is 4N or higher, and amounts of aluminum, iron and copper in the lanthanum are respectively 100 wtppm or less; as well as high-purity lanthanum, wherein the purity excluding rare-earth elements and gas components is 4N or higher, amounts of aluminum, iron and copper in the lanthanum are respectively 100 wtppm or less, oxygen content is 1500 wtppm or less, elements of alkali metals and alkali earth metals are respectively 1 wtppm or less, elements of transition metals and high-melting-point metals other than those above are respectively 10 wtppm or less, and radioactive elements are respectively 10 wtppb or less. The invention aims to provide technology capable of efficiently and stably providing high-purity lanthanum, a sputtering target comprising high-purity lanthanum, and a thin film for metal gate mainly comprising high-purity lanthanum.Type: ApplicationFiled: October 31, 2008Publication date: October 28, 2010Applicant: NIPPON MINING AND METALS CO., LTD.Inventors: Masahiro Takahata, Yuichiro Shindo, Gaku Kanou
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Patent number: 7820325Abstract: An active material composition for an alkaline storage battery comprises a) an alloy capable of forming a hydride, of formula R1-yMgyNit-zMz in which R is La, optionally substituted by Nd and/or Pr, M is at least one element chosen from the group comprising Mn, Fe, Al, Co, Cu, Zr and Sn, in which 0.1?y?0.4, 3.2?t?3.5, and z?0.5, and of which the equilibrium hydrogen pressure with the alloy, for a hydrogen insertion into the alloy of 0.5 H/Metal at 40°, is less than 0.7 bar, and b) a yttrium-based compound in a mixture with alloy a).Type: GrantFiled: May 19, 2006Date of Patent: October 26, 2010Assignee: SAFTInventors: Patrick Bernard, Bernard Knosp, Michele Baudry
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Publication number: 20100260640Abstract: Provided is a method of producing high purity ytterbium, wherein the high purity ytterbium is obtained by reducing crude ytterbium oxide in a vacuum with reducing metals composed of metals having a low vapor pressure, and selectively distilling ytterbium. Additionally provided are methods of achieving the high purification of ytterbium which has a high vapor pressure and is hard to refine in a molten state, and high purity ytterbium obtained thereby. Further provided is technology for efficiently and stably obtaining a sputtering target made of high purity material ytterbium, and a thin film for metal gates containing high purity material ytterbium.Type: ApplicationFiled: September 24, 2008Publication date: October 14, 2010Applicant: NIPPON MINING AND METALS CO., LTD.Inventors: Yuichiro Shindo, Kazuto Yagi
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Publication number: 20100221137Abstract: Provided herein are materials that can achieve up to 14% hydrogen absorption by weight in ambient conditions, which is a marked improvement over the hydrogen absorption values found in the prior art. Further provided are experimental conditions necessary to produce these materials. In order to produce the hydrogen storage material, a transition metal (or Lithium) is vaporized in a pi bond gas in conditions that permit only a few bonding collisions to occur between the vaporized transition metal atoms and pi bond gas molecules before the resulting bonded material is collected.Type: ApplicationFiled: April 18, 2008Publication date: September 2, 2010Applicant: UNIVERSITY OF VIRGINIA PATENT FOUNDATIONInventors: Bellave S. Shivaram, Adam B. Phillips
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Patent number: 7674427Abstract: By using a rare earth metal having a minimal content of impurity metal element, machining it into a member and cleaning with an organic acid-base capping agent, there is obtained a rare earth metal member composed entirely of a rare earth metal and containing not more than 100 ppm of impurity metal element in a sub-surface zone, which member is characterized by a high surface purity, a large grain size, minimized grain boundaries, and improved halogen resistance or corrosion resistance.Type: GrantFiled: June 28, 2006Date of Patent: March 9, 2010Assignee: Shin-Etsu Chemical Co., Ltd.Inventors: Toshihiko Tsukatani, Hajime Nakano, Takao Maeda
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Patent number: 7615075Abstract: A plastic implant device for a mammal that contains a rare earth metal compound tracer and a method for detecting degradation such as wear of the implanted device are disclosed. The tracer can also be present with a separate antioxidant or the tracer compound can be can be the salt of a C6-C22 unsaturated carboxylic acid. The rare earth metal compound tracer is released when the prosthetic is worn down or otherwise degraded in the mammalian body in which it was implanted. The presence and amount of released tracer present in a body fluid or tissue sample measured and is proportional to the degree of degradation of the implant.Type: GrantFiled: November 1, 2006Date of Patent: November 10, 2009Assignee: Rush University Medical CenterInventors: Achim Kunze, Markus Wimmer
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Publication number: 20090257907Abstract: SmCo-based alloy nanoparticles composed mainly of a SmCo-based alloy containing Sm and Co as constituent elements, wherein the content of metal elements other than Sm and Co is 0.05-20 wt % with respect to the SmCo-based alloy.Type: ApplicationFiled: March 4, 2009Publication date: October 15, 2009Applicants: TDK Corporation, Tokyo University of Science Educational Foundation Administrative OrganizationInventors: Mamoru Satoh, Naoki Toshima, Mutsuko Kinjo, Haruki Kinjo, Shiho Tokonami
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Publication number: 20090246071Abstract: Hydrogen storage alloy has a composition expressed by a general formula (LaaNdb“A”c“D”d)1-wMgwNixAly“T”z, where “A”, “D” and “T” represent at least one element selected from a group consisting of Sm and Gd, a group consisting of Pr, Eu, etc., and a group of consisting of V, Nb, etc., respectively; subscripts a, b, c and d satisfy relationship shown by a?0, b?0, c>0, 0.1>d?0, and a+b+c+d=1; and subscripts w, x, y and z fall in a range shown by 0<w?0.25, 0.05?y?0.35, 0?z?0.5, and 3.15?x+y+z?3.35.Type: ApplicationFiled: March 24, 2009Publication date: October 1, 2009Applicant: SANYO ELECTRIC CO., LTD.Inventors: Masaru KIHARA, Tetsuya YAMANE
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Patent number: 7569511Abstract: An alcohol steam reforming catalyst for generating hydrogen contains palladium, yttrium, and at least one of cerium and a metal oxide. The catalyst displays both an improved alcohol conversion rate and improved carbon dioxide selectivity. Methods of making and using the alcohol steam reforming catalyst are described.Type: GrantFiled: May 5, 2006Date of Patent: August 4, 2009Assignee: BASF Catalysts LLCInventors: Christopher R. Castellano, Ye Liu, Ahmad Moini, Gerald Stephen Koermer, Robert Joseph Farrauto
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Publication number: 20090011332Abstract: The subject of the invention is a composition comprising: a) a hydrogen-fixing alloy of formula ABx where: A is an element chosen from the group comprising La, Ce, Nd, Pr and Mg, or a mixture of these; B is an element chosen from the group comprising Ni, Mn, Fe, Al, Co, Cu, Zr, Sn, or a mixture of these; x is from 3 to 6; b) a magnesium compound in such a proportion that its mass is greater than 0.1% and less than or equal to 5% of the mass of the hydrogen-fixing alloy. This composition can be used as an active material of a negative electrode of a nickel-metal hydride accumulator. Such an accumulator displays a reduced self-discharge. The invention also describes the method of producing such an accumulator.Type: ApplicationFiled: July 2, 2008Publication date: January 8, 2009Applicant: SAFT GROUPE SAInventors: Celine LAVAUD, Valerie Dillay, Patrick Bernard
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Publication number: 20080081213Abstract: An amorphous alloy member including an irregular region having a center line average roughness Ra of about 0.1 ?m to about 1000 ?m on a surface, at least the irregular region including an amorphous alloy having an amorphous phase at a volume ratio of about 50% to about 100%. A process for manufacturing the amorphous alloy member, and an authenticity determination device and an authenticity determination method using the amorphous alloy member.Type: ApplicationFiled: April 26, 2007Publication date: April 3, 2008Applicants: FUJI XEROX CO., LTD., YKK CORPORATIONInventors: Kensuke Ito, Takashi Nagayasu, Tomonari Sugata, Tadashi Shimizu, Tetsuya Kimura
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Patent number: RE44239Abstract: Disclosed is an electrode for semiconductor devices capable of suppressing the generation of hillocks and reducing the resistivity, which is suitable for an active matrixed liquid crystal display and the like in which a thin film transistor is used; its fabrication method; and a sputtering target for forming the electrode film for semiconductor devices. The electrode for semiconductor devices is made of an Al alloy containing the one or more alloying elements selected from Fe, Co, Ni, Ru, Rh and Ir, in a total amount from 0.1 to 10 At %, or one or more alloying elements selected from rare earth elements, in a total amount from 0.05 to 15 at %.Type: GrantFiled: May 9, 2006Date of Patent: May 28, 2013Assignee: Kobelco Research Institute, Inc.Inventors: Seigo Yamamoto, Katsutoshi Takagi, Eiji Iwamura, Kazuo Yoshikawa, Takashi Oonishi