Of Specified Metal Or Metal Alloy Composition Patents (Class 977/810)
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Publication number: 20140171297Abstract: The present invention is directed to hollow catalyst particles comprising a layered shell structure and to a method of their manufacture. The catalyst particles have the general formula Hcore/PMinner shell/IL/PMouter shell in which Hcore is the hollow core, PMinner shell is a precious metal forming the innermost layer of the shell, IL is an intermediate layer comprising a base metal/precious metal alloy, and PMouter shell is a precious metal forming the outermost layer of the shell. The precious metal is selected from Pt, Ir and Pd and mixtures or alloys thereof, and IL is an intermediate layer comprising a base metal/precious metal alloy wherein the concentration of the base metal changes from the periphery of the hollow core to the outer surface of the intermediate layer. The base metal is selected from Co, Ni, and Cu and mixtures thereof.Type: ApplicationFiled: December 18, 2012Publication date: June 19, 2014Applicant: UMICORE AG & CO. KGInventors: Dan V. GOIA, Igor V. SEVONKAEV, Daniel HEREIN
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Patent number: 8753559Abstract: A fabrication method of nanoparticles is provided. A substrate having a plurality of pillar structures is provided and then a plurality of ring structures is formed to surround the plurality of the pillar structures. The inner wall of each ring structure surrounds the sidewall of each pillar structure. A portion of each pillar structure is removed to reduce the height of each pillar structure and to expose the inner wall of each ring structure. The ring structures are separated from the pillar structures to form a plurality of nanoparticles. Surface modifications are applied to the ring structures before the ring structures are separated from the pillar structures on the substrate.Type: GrantFiled: June 21, 2012Date of Patent: June 17, 2014Assignee: National Taiwan UniversityInventors: Chih-Chung Yang, Hung-Yu Tseng, Wei-Fang Chen, Che-Hao Liao, Yu-Feng Yao
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Patent number: 8753541Abstract: The molecule is prepared by capping phospholipid on a single gold nanoparticle (GNP). Since the thiol-related molecule bounded on GNP shows the characteristic of surface-enhanced Raman scattering (SERS), the phospholipid-capped gold nanoparticle (PLGNP) can be formed as a nanoprobe applied on the detection device integrating optics and chemistry and used in the fields of biomedicine, medical diagnosis and environment for detecting, such as solutions containing salts or proteins.Type: GrantFiled: August 16, 2010Date of Patent: June 17, 2014Assignee: National Tsing Hua UniversityInventors: Ja-An Ho, Si-Han Chen
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Patent number: 8741801Abstract: Platinum (Pt)-based alloys are effective catalysts for oxygen reduction reaction (ORR) or fuel oxidation in proton exchange membrane fuel cells (PEMFCs). A wet-chemical approach for preparing monodisperse Pt3Ni, Pt3Co and Pt3Fe nanocubes and Pt3Ni nanoctahedra which are terminated with {100} and {111} facets, respectively, were developed. Such nanoscaled electrocatalysts supported on carbon black with controlled shape, e.g., octahedral configuration, is provided. ORR activity on the Pt3Ni nanoctahedra is ˜5.1 fold higher than that of nanocubes with a similar size, and their C-supported samples are highly active with respect to commercial Pt/C.Type: GrantFiled: November 23, 2010Date of Patent: June 3, 2014Assignee: The Research Foundation for The State University of New YorkInventors: Jiye Fang, Jun Zhang
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Publication number: 20140146414Abstract: A magnetic storage medium is formed of magnetic nanoparticles that are encapsulated within nanotubes (e.g., carbon nanotubes), which are arranged in a substrate to facilitate the reading and writing of information by a read/write head. The substrate may be flexible or rigid. Information is stored on the magnetic nanoparticles via the read/write head of a storage device. These magnetic nanoparticles are arranged into data tracks to store information through encapsulation within the carbon nanotubes. As carbon nanotubes are bendable, the carbon nanotubes may be arranged on flexible or rigid substrates, such as a polymer tape or disk for flexible media, or a glass substrate for rigid disk. A polymer may assist holding the nanoparticle-filled carbon tubes to the substrate.Type: ApplicationFiled: February 3, 2014Publication date: May 29, 2014Applicant: Sigma Pro Ltd. LLCInventor: Tyson York Winarski
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Patent number: 8734752Abstract: A method of synthesis of a fulleride of metal nano-cluster is provided. The method is characterized in mechanically alloying metal nano-clusters with fullerene-type clusters. Fullerene molecules in the fulleride of metal nano-cluster are preserved. The alloying is done by milling in a planetary mill. A material including a fulleride of a metal nano-cluster is also provided.Type: GrantFiled: November 16, 2010Date of Patent: May 27, 2014Assignee: Siemens AktiengesellschaftInventors: Vladimir Davidovich Blank, Gennadii Ivanovich Pivovarov, Mikhail Yurievich Popov
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Patent number: 8728434Abstract: Disclosed herein is a method of synthesizing a nanocrystal. The method can include reacting a bismuth material, an antimony material, and a ligand together with a heat source. The method may also include injecting a sulfur precursor at a predetermined temperature and maintaining the predetermined temperature for a predetermined amount of time to form a plurality of precursor nanocrystals. The precursor nanocrystals may include Bi0.5Sb1.5S3 nanocrystals.Type: GrantFiled: June 28, 2013Date of Patent: May 20, 2014Assignee: Evident Technologies, Inc.Inventors: Clinton T. Ballinger, Gregg Bosak, Katie Fiske, Luke Nally, Adam Z. Peng, Susanthri Perera, Alfred Waring
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Patent number: 8721763Abstract: A method for separating metal nanoparticles from colloidal metal solution includes providing a colloidal metal solution, including a plurality of metal nanoparticles; mixing a precipitating agent with the colloidal metal solution for maintaining the power of hydrogen value (pH) of the colloidal metal solution in a specific value; keeping the colloidal metal solution stationary for a static time at an environmental temperature such that the metal nanoparticle precipitates from the colloidal metal solution, and the colloidal metal solution forms a supernatant and a precipitating liquid; separating a precipitate from the precipitating liquid by a filtering process; and liquid blasting the precipitate by a first solvent to obtain the metal nanoparticles.Type: GrantFiled: August 1, 2012Date of Patent: May 13, 2014Assignee: Chung Shan Institute of Science and TechnologyInventors: Ming-Tseh Tsay, Seng-Min Chang
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Publication number: 20140127409Abstract: In a fine particle dispersion, a fine particle (P) is dispersed in a mixed organic solvent. The fine particle (P) is formed of one type or not less than two types of a metal, an alloy, and/or a metallic compound, and has a mean particle diameter between 1 nm and 150 nm for primary particles thereof. Further, the fine particle (P) has a surface at least a part thereof coated with a polymer dispersing agent (D).Type: ApplicationFiled: November 6, 2012Publication date: May 8, 2014Inventors: Takuya HARADA, Hidemichi FUJIWARA, Kazuhiro TAKASHIBA, Nobumitsu YAMANAKA, Yusuke YAMADA, Hideo NISHIKUBO, Takashi UNNO
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Patent number: 8716597Abstract: A method and structure for implementing enhanced dimensional stability with a graphite nanotube hybrid socket. A socket housing wall includes a plurality of aligned graphite nanofibers. The plurality of aligned graphite nanofibers distributing heat and providing enhanced dimensional stability. For example, the plurality of aligned graphite nanofibers more evenly distributes heat when the socket is undergoing solder reflow processes, thereby reducing strain.Type: GrantFiled: January 10, 2012Date of Patent: May 6, 2014Assignee: International Business Machines CorporationInventors: Phillip V. Mann, Kevin M. O'Connell, Mark D. Plucinski, Sandra J. Shirk/Heath, Arvind K. Sinha
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Publication number: 20140119981Abstract: A Bi1-xSbx thin film is provided that includes a Dirac-cone with different degrees of anisotropy in their electronic band structure by controlling the stoichiometry, film thickness, and growth orientation of the thin film, so as to result in a consistent inverse-effective mass tensor including non-parabolic or linear dispersion relations.Type: ApplicationFiled: October 25, 2012Publication date: May 1, 2014Applicant: Massachusetts Institute of TechnologyInventors: Shuang Tang, Mildred S. Dresselhaus
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Patent number: 8709307Abstract: This invention concerns a polymer coating material composition (PCM) comprising as components a polymer matrix, carbon nanotubes (CNT) as optical power limiters (OPL), and carbon rich molecules. One aspect of the invention is where the Polymer Matrix is a hyperbranched polymer, such as a hyperbranched polycarbosiloxane polymer. Another aspect of the invention is where the CNT is a short multiwall carbon nanotube (sMWNT). A further aspect of the invention is where the carbon-rich molecules are triethoxysilyl anthracene derivatives. The composition wherein the ratio in weight percent of Polymer Matrix to CNT to carbon-rich molecule is from 94:3:3 to 99.8:0.1:0.1. The composition can further contain one or more of multi-photon absorbers (MPA) chromophores or reverse saturable absorbers (RSA) chromophores. These compositions can be used as: a) a film, b) a coating, c) a liquid, d) a solution, or e) a sandwiched film between two transparent substrates.Type: GrantFiled: March 13, 2009Date of Patent: April 29, 2014Assignee: Oxazogen, Inc.Inventors: Abhijit Sarkar, George Rayfield
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Patent number: 8709305Abstract: This invention concerns a polymer coating material composition (PCM) comprising as components a Polymer Matrix, carbon nanotubes (CNT) as optical power limiters (OPL), and carbon-rich molecules. One aspect of the invention is where the Polymer Matrix is a hyperbranched polymer, such as a hyperbranched polycarbosiloxane polymer. Another aspect of the invention is where the CNT is a short multiwall carbon nanotube (sMWNT). A further aspect of the invention is where the carbon-rich molecules are triethoxysilyl anthracene derivatives. The composition wherein the ratio in weight percent of Polymer Matrix to CNT to carbon-rich molecule is from 94:3:3 to 99.8:0.1:0.1. The composition can further contain one or more of multi-photon absorbers (MPA) chromophores or reverse saturable absorbers (RSA) chromophores. These compositions can be used as: a) a film, b) a coating, c) a liquid, d) a solution, or e) a sandwiched film between two transparent substrates.Type: GrantFiled: July 20, 2011Date of Patent: April 29, 2014Assignee: Oxazogen, Inc.Inventor: Abhijit Sarkar
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Publication number: 20140113218Abstract: Catalysts comprising porous metal nanoparticles, which are individually encapsulated with a reaction-enhancing material, and their use in fuel cell catalysis are provided.Type: ApplicationFiled: October 23, 2012Publication date: April 24, 2014Applicant: THE JOHNS HOPKINS UNIVERSITYInventors: Jonah Daedalus Erlebacher, Joshua D. Snyder
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Patent number: 8703640Abstract: The invention discloses a preparation method of nano-scale platinum (Pt) using an open-loop reduction system. The preparation method comprises the steps of: utilizing carbon nanotubes (CNTs) as a catalyst support; mixing platinum salt with a reducing agent and deionized water to form a precursor solution in a flask; heating the precursor solution in the flask at a predetermined temperature range to reduce nano-scale platinum nanoparticles on the carbon nanotubes by the process of water evaporation; allowing the water vapor to flow through a connection tube to a condenser; filling a cooling substance into the condenser via the first opening and draining the cooling substance from the condenser via the second opening to lower the temperature of the water vapor in the inner tube by the cooling substance and condense the water vapor into liquid water, which is collected with a beaker placed under the condenser.Type: GrantFiled: November 21, 2012Date of Patent: April 22, 2014Inventors: Fan-Gang Tseng, Yi-Shiuan Wu, Shin-Mei Gong, Chun-Hsien Wang
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Patent number: 8685424Abstract: A method of preparing antimicrobial-containing polymeric products is provided, the method involving electrospinning a dispersion comprising a dispersible polymer, a fiberizing polymer, and one or more antimicrobial agents. The electrospun material is heated to remove solvent and the fiberizing polymer, giving a nonwoven polymeric material having antimicrobial agent incorporated therein. The material can be in the form of, for example, a non-woven sheet, tube, or covering.Type: GrantFiled: October 13, 2011Date of Patent: April 1, 2014Assignee: Zeus Industrial Products, Inc.Inventors: Robert L. Ballard, Bruce L. Anneaux, Joshua L. Manasco
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Publication number: 20140084205Abstract: An article of manufacture and method of preparation thereof. The article of manufacture and method of making the article includes an eutectic salt solution suspensions and a plurality of nanocrystalline phase change material particles having a coating disposed thereon and the particles capable of undergoing the phase change which provides increase in thermal energy storage.Type: ApplicationFiled: September 26, 2012Publication date: March 27, 2014Inventors: Dileep Singh, Sreeram Cingarapu, Elena V. Timofeeva, Michael Moravek
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Publication number: 20140077121Abstract: A generic route for synthesis of asymmetric nanostructures. This approach utilizes submicron magnetic particles (Fe3O4—SiO2) as recyclable solid substrates for the assembly of asymmetric nanostructures and purification of the final product. Importantly, an additional SiO2 layer is employed as a mediation layer to allow for selective modification of target nanoparticles. The partially patched nanoparticles are used as building blocks for different kinds of complex asymmetric nanostructures that cannot be fabricated by conventional approaches. The potential applications such as ultra-sensitive substrates for surface enhanced Raman scattering (SERS) have been included.Type: ApplicationFiled: September 18, 2012Publication date: March 20, 2014Applicant: UChicago Argonne, LLCInventors: Yugang Sun, Yongxing Hu
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Publication number: 20140065718Abstract: Provided is a hydrogen peroxide sensitive metal nanoparticle including: a metal nanoparticle including a biocompatible metal and a hydrogen peroxide reactive ion which is bonded to a surface of the metal nanoparticle and is oxidized by hydrogen peroxide.Type: ApplicationFiled: August 30, 2013Publication date: March 6, 2014Applicants: POSTECH ACADEMY-INDUSTRY FOUNDATION, Samsung Electronics Co., Ltd.Inventors: Kyu-hyun IM, No-kyoung PARK, Jae-hyun HUR, Sung-jee KIM, Ju-taek NAM, Seong-ho PARK, Sang-hwa JEONG
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Publication number: 20140054514Abstract: There are provided a conductive paste for internal electrodes, a multilayer ceramic electronic component including the same, and a method of manufacturing the same. The conductive paste for internal electrodes including: a nickel (Ni) powder; a nickel oxide (NiO) powder having a content of 5.0 to 15.0 parts by weight based on 100 parts by weight of the nickel powder; and an organic vehicle.Type: ApplicationFiled: November 7, 2012Publication date: February 27, 2014Applicant: SAMSUNG ELECTRO-MECHANICS CO., LTD.Inventors: Hyo Sub KIM, Jeong Ryeol KIM, Chang Hoon KIM, Gun Woo KIM, Doo Young KIM
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Publication number: 20140048750Abstract: There is provided a conductive paste composition for an internal electrode of a multilayered ceramic electronic component including: a metal powder; and a chrome (Cr) or cobalt (Co) powder having a melting point higher than that of the metal powder. In the conductive paste composition for the internal electrode, the sintering shrinkage temperature of the internal electrode may be increased, and the connectivity of the internal electrode may be improved.Type: ApplicationFiled: October 25, 2012Publication date: February 20, 2014Applicant: SAMSUNG ELECTRO-MECHANICS CO., LTD.Inventors: Jong Han KIM, Eung Soo KIM, Seung Ho LEE, Jae Yeol CHOI
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Patent number: 8652487Abstract: Disclosed are synthetic nanocarrier methods, and related compositions, comprising B cell and/or MHC Class II-restricted epitopes and immunosuppressants in order to generate tolerogenic immune responses, such as the generation of antigen-specific regulatory B cells.Type: GrantFiled: April 27, 2012Date of Patent: February 18, 2014Assignee: Selecta Biosciences, Inc.Inventor: Roberto A. Maldonado
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Patent number: 8652640Abstract: The present invention includes an article of manufacture or device, or related system, comprising a heterogeneous surface for selective analyte sensing or separation. Such an article can comprise a surface member and a plurality of spaced components extending therefrom and coupled thereto, such a surface member and spaced components providing a surface heterogeneity selected from different electrostatic interactions, different non-electrostatic interactions and a combination of such interactions, such that the interactions are at least partially sufficient for selective analyte interaction and/or separation. Each such component extension can be of a nanometer dimension about the Debye length of a medium comprising an analyte particle exposed to such a surface. An analyte particle, optionally of a mixture of particles, can be dimensioned from about 30 nm to 20 ?m.Type: GrantFiled: January 24, 2013Date of Patent: February 18, 2014Assignee: The University of MassachusettsInventors: Maria M. Santore, Jun Zhang, Vincent Rotello
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Publication number: 20140045169Abstract: Disclosed are glycan immobilized metal nanoparticles and a method used thereof for detecting HIV-1 in a saliva sample at early stages of viral infection. The method comprises the steps of: (A) providing glycan immobilized metal nanoparticles which can recognize HIV-1; (B) contacting the glycan immobilized metal nanoparticles with the saliva sample and a mixture is obtained; (C) concentrating the mixture; and (D) determining HIV-1 in the concentrated mixture by an appropriate detecting method.Type: ApplicationFiled: August 13, 2012Publication date: February 13, 2014Applicant: SUDX LIFE SCIENCE CORP.Inventors: Yasuo SUDA, Masanori BABA, Mika OKAMOTO
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Patent number: 8641798Abstract: A one-step process for synthesizing gold-copper bimetallic nanocubes. The process comprises the step of simultaneously reducing a copper II salt and a gold halide by 1,2-hexadecanediol in diphenyl ether, and 1-dodecanethiol as well as surfactants 1-adamantanecarboxylic acid and 1-hexadecylamine. The copper II salt may be copper (II) acetylacetonate, copper chloride, copper sulfate, or copper phosphate. The gold halide may be chloroauric acid, gold chloride, gold bromide, or tetrabromoauric acid. The reduction may occur at a temperature between about 160 and 180 degrees Celsius. The copper II salt may be copper (II) acetylacetonate and the gold halide may be chloroauric acid.Type: GrantFiled: July 12, 2011Date of Patent: February 4, 2014Assignee: The United States of America, as represented by the Secretary of Commerce, NISTInventors: Angela R. Hight-Walker, Yonglin Liu
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Patent number: 8642496Abstract: The present invention relates to a method for forming a catalyst comprising catalytic nanoparticles and a catalyst support, wherein the catalytic nanoparticles are embedded in the catalyst support, comprising forming the catalytic nanoparticles on carbon particle, dispersing the carbon particle in a solution comprising precursors of the catalyst support to form a suspension, heating the suspension to form a gel, subjecting the gel to incineration to form a powder, and sintering the powder to form the catalyst.Type: GrantFiled: July 13, 2011Date of Patent: February 4, 2014Assignee: Agency for Science, Technology and ResearchInventors: Zetao Xia, Liang Hong, Wei Wang, Zhao Lin Liu
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Publication number: 20140018233Abstract: The invention discloses a preparation method of nano-scale platinum (Pt) using an open-loop reduction system. The preparation method comprises the steps of: utilizing carbon nanotubes (CNTs) as a catalyst support; mixing platinum salt with a reducing agent and deionized water to form a precursor solution in a flask; heating the precursor solution in the flask at a predetermined temperature range to reduce nano-scale platinum nanoparticles on the carbon nanotubes by the process of water evaporation; allowing the water vapor to flow through a connection tube to a condenser; filling a cooling substance into the condenser via the first opening and draining the cooling substance from the condenser via the second opening to lower the temperature of the water vapor in the inner tube by the cooling substance and condense the water vapor into liquid water, which is collected with a beaker placed under the condenser.Type: ApplicationFiled: November 21, 2012Publication date: January 16, 2014Applicant: NATIONAL TSING HUA UNIVERSITYInventors: FAN-GANG TSENG, YI-SHIUAN WU, SHIN-MEI GONG, CHUN-HSIEN WANG
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Publication number: 20140015158Abstract: Multilayer substrates for the growth and/or support of CNT arrays are provided. These multilayer substrates both promote the growth of dense vertically aligned CNT arrays and provide excellent adhesion between the CNTs and metal surfaces. Carbon nanotube arrays formed using multilayer substrates, which exhibit high thermal conductivity and excellent durability, are also provided. These arrays can be used as thermal interface materials.Type: ApplicationFiled: July 11, 2012Publication date: January 16, 2014Inventor: Baratunde A. Cola
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Publication number: 20140009964Abstract: The present invention provides light-emitting diode (LED) devices comprises compositions and containers of hermetically sealed luminescent nanocrystals. The present invention also provides displays comprising the LED devices. Suitably, the LED devices are white light LED devices.Type: ApplicationFiled: September 13, 2013Publication date: January 9, 2014Applicant: Nanosys, Inc.Inventors: Robert S. Dubrow, Jian Chen, Veeral D. Hardev, H. Jurgen Hofler, Ernest Lee
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Publication number: 20140004440Abstract: Disclosed herein are embodiments of ultralow loading catalyst. Also disclosed are membrane electrode assemblies and fuel cells utilizing the ultralow loading catalyst. One embodiment of an ultralow loading catalyst includes support particles comprised of a non-precious metal catalyst material and precious metal particles supported on the support particles.Type: ApplicationFiled: June 29, 2012Publication date: January 2, 2014Applicant: NISSAN NORTH AMERICA, INC.Inventors: TAEHEE HAN, ELLAZAR V. NIANGAR, NILESH DALE
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Publication number: 20140004430Abstract: Disclosed is a metal-air fuel cell based on a solid oxide electrolyte employing metal nanoparticles as fuel. The metal-air fuel cell includes an anode, a cathode, a solid oxide electrolyte and a metal fuel, wherein the metal fuel comprises metal nanoparticles having an average particle diameter ranging from 1 nm to 100 nm. The metal nanoparticles have a low melting point and provide high reactivity. Thus, the metal-air fuel cell forms a metal molten phase at a relatively low temperature thereby improving contactability and has improved reactivity to promote oxidation, thereby enabling highly efficient power generation.Type: ApplicationFiled: July 2, 2013Publication date: January 2, 2014Inventors: Jaeyoung Lee, HyungKuk Ju, Jae Kwang Lee, Jin Won Kim
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Patent number: 8618595Abstract: A method for the production of a robust, chemically stable, crystalline, passivated nanoparticle and composition containing the same, that emit light with high efficiencies and size-tunable and excitation energy tunable color. The methods include the thermal degradation of a precursor molecule in the presence of a capping agent at high temperature and elevated pressure. A particular composition prepared by the methods is a passivated silicon nanoparticle composition displaying discrete optical transitions.Type: GrantFiled: May 5, 2005Date of Patent: December 31, 2013Assignee: Merck Patent GmbHInventors: Brian A. Korgel, Keith P. Johnston, Katherine Brosh, Paul Thurk
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Publication number: 20130342221Abstract: Metal nanowires, such as silver nanowires coated on a substrate were sintered together to form fused metal nanowire networks that have greatly improved conductivity while maintaining good transparency and low haze. The method of forming such a fused metal nanowire networks are disclosed that involves exposure of metal nanowires to various fusing agents on a short timescale. The resulting sintered network can have a core-shell structure in which metal halide forms the shell. Additionally, effective methods are described for forming patterned structure with areas of sintered metal nanowire network with high conductivity and areas of un-sintered metal nanowires with low conductivity. The corresponding patterned films are also described.Type: ApplicationFiled: October 30, 2012Publication date: December 26, 2013Applicant: C3NANO INC.Inventors: Ajay Virkar, Ying-Syi Li, Xiqiang Yang, Melburne C. LeMieux
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Publication number: 20130341074Abstract: Metal nanowires, such as silver nanowires coated on a substrate were fused together to form fused metal nanowire networks that have greatly improved conductivity while maintaining good transparency. Materials formed form the fused metal nanowire networks described herein can have a transparency to visible light of at least about 85% and a sheet resistance of no more than about 100 Ohms/square or a transparency to visible light of at least about 90% and a sheet resistance of no more than about 250 Ohms/square. The method of forming such a fused metal nanowire networks are disclosed that involves exposure of metal nanowires to various fusing agents on a short timescale. When formed into a film, materials comprising the metal nanowire network demonstrate low sheet resistance while maintaining desirably high levels of optical transparency, making them suitable for transparent electrode formation.Type: ApplicationFiled: June 22, 2012Publication date: December 26, 2013Inventors: Ajay Virkar, Ying-Syi Li, Melburne C. LeMieux
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Publication number: 20130344421Abstract: The present invention relates to hollow platinum nanoparticles with a diameter comprised between 3 and 20 nm which comprise a first central cavity and optionally at least one second cavity at the periphery of the first cavity, the shell of which is dense and single-crystal with a thickness comprised between 0.2 and 5 nm. The invention also relates to a method for manufacturing such nanoparticles, as well as to their use as an electrocatalyst in fuel cells.Type: ApplicationFiled: June 24, 2013Publication date: December 26, 2013Inventors: Audrey MONTAUT, Sandrine MOUTIN, Marian Julien CHATENET, Julien Frederic Christophe DURST, Frederic Thibaut Maillard
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Patent number: 8608983Abstract: A composite anode active material including metal core particles and carbon nanotubes that are covalently bound to the metal core particles, an anode including the composite anode active material, a lithium battery employing the anode, and a method of preparing the composite anode active material.Type: GrantFiled: January 29, 2010Date of Patent: December 17, 2013Assignee: Samsung Electronics Co., Ltd.Inventors: Jeong-hee Lee, Jeong-na Heo, Ho-suk Kang, Sang-kook Mah, In-taek Han
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Publication number: 20130315839Abstract: Iron oxide nano contrast agents for Magnetic Resonance Imaging which have superior T2 contrast effect, and also can be used as a storage or a carrier for drugs and so on, are disclosed. The iron oxide nano contrast agents can be prepared by the steps of: coating surfaces of hydrophobic FeO nanoparticles with a coating material selected from the group consisting of polyethylene glycol-phospholipid conjugate, dextran, chitosan, dimercaptosuccinic acid and mixtures thereof in an organic solvent to form hydrophilic FeO nanoparticles having hydrophilic surfaces and dispersibility in water; dispersing the hydrophilic FeO nanoparticles in water to oxidize FeO; and exposing the oxidized hydrophilic FeO nanoparticles to an acidic buffer to dissolve and remove interior unoxidized FeO portions, and thereby to form Fe3O4 nanoparticles having an interior space.Type: ApplicationFiled: July 31, 2013Publication date: November 28, 2013Applicant: KOREA BASIC SCIENCE INSTITUTEInventors: Chulhyun LEE, Sung Lan JEON, Min Kyung CHAE, Jee-Hyun CHO, Eun Ju JANG
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Patent number: 8591759Abstract: The present disclosure relates to magnetic nanocomposite materials, and processes for the production thereof. In particular, the present disclosure relates to nanocomposites comprising magnetic nanoparticles surrounded by a polymer, which is bonded to a biodegradable polymer.Type: GrantFiled: May 31, 2012Date of Patent: November 26, 2013Assignee: Chemgreen Innovation Inc.Inventors: Khashayar Ghandi, Paul Themens
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Patent number: 8592339Abstract: High-quality bimetallic PtxCu100-x (x=54-80 at. %) nanocubes can be prepared from a hot organic solution. Synthetic conditions, such as the ratio of oleylamine/tetraoctylammonium bromide as well as the doses of 1-dodecanethiol and 1,2-tetradecanediol have been optimized to ensure a formation of Pt—Cu nanocubes. Electrochemical evaluation shows that the catalytic activity of Pt60Cu40 nanocubes for methanol oxidation is superior, in comparison with those of spherical Pt60Cu40 nanocubes and Pt nanocubes with similar sizes, implying that the {100}-terminated Pt60Cu40 nanocubes offer a higher activity for methanol oxidation reaction than those with mixed crystallographic facets do.Type: GrantFiled: November 23, 2010Date of Patent: November 26, 2013Assignee: The Research Foundation for the State University of New YorkInventors: Jiye Fang, Dan Xu
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Patent number: 8585886Abstract: The invention is directed to a method for producing titanium dioxide nanotubes, the method comprising anodizing titanium metal in contact with an electrolytic medium containing an ionic liquid. The invention is also directed to the resulting titanium dioxide nanotubes, as well as devices incorporating the nanotubes, such as photovoltaic devices, hydrogen generation devices, and hydrogen detection devices.Type: GrantFiled: March 21, 2012Date of Patent: November 19, 2013Assignee: UT-Battelle, LLCInventors: Jun Qu, Huimin Luo, Sheng Dai
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Patent number: 8580138Abstract: This invention covers nanofluids. Nanofluids are a combination of particles between 1 and 100 nanometers, a surfactant and the base fluid. The nanoparticles for this invention are either pyrogenic nanoparticles or carbon nanotubes. These nanofluids improve the heat transfer of the base fluids. The base fluid can be ethylene glycol, or propylene glycol, or an aliphatic-hydrocarbon based heat transfer fluid. This invention also includes a method of making nanofluids. No surfactant is used to suspend the pyrogenic nanoparticles in glycols.Type: GrantFiled: September 11, 2011Date of Patent: November 12, 2013Assignee: ACTA Technology IncInventor: John Melvin Olson
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Publication number: 20130296604Abstract: A bimetallic catalyst supported on a transition metal oxide is described. A method to make and use the bimetallic catalyst is also described. A method for preparing supported bimetallic catalysts of coinage group metal and a combination of a coinage group metal and a platinum metal group is described. A method for direct synthesis of adipic acid (AA) adopting green catalytic oxidation route of cyclohexane (CH) using the bimetallic catalysts is described. The reaction to convert CH into AA in the presence of bimetallic catalyst is carried in an autoclave in the temperature range of 25 to 300° C. The CH conversion was over 21% with AA selectivity of 34% and ca. 63% selectivity of cyclohexanone and cyclohexanol together over Au—Pd/TiO2 bimetallic catalyst.Type: ApplicationFiled: May 4, 2012Publication date: November 7, 2013Applicant: King Absulaziz City for Science and Technology (KACST)Inventors: Ahmad S. ALSHAMMARI, Abdulaziz A. BAGABAS, Angela KÖCKRITZ, Venkata Narayana KALEVARU, Andreas MARTIN
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Patent number: 8575282Abstract: A modified compound that has at least one further functional group, in particular a bio- or macromolecule, comprising at least one x-fold (x?1) chemoselectively incorporated phosphoramidate group of general formula (I), NPO(OR1)(OR1?), and/or at least one x-fold (x?1) chemoselectively incorporated phosphonamide group of general formula (Ia), NPO(R1)(OR1?). R1 and R1? is selected from the group containing glycerol, polyglycerol, PEG polymers of the general empirical formula C2nH4n+2On+1 with n?1, Cn-alkyl chains with n?1; functionalized Cn-alkyl chains with n?1, aryls, heteroaryl, silyl, lipids, fluorophores, saccharides, peptides, crown ethers, or a linker, which links the aforementioned groups. R1 and R1? can be identical to or different from one another.Type: GrantFiled: March 9, 2010Date of Patent: November 5, 2013Assignee: Freie Universitaet BerlinInventors: Christian Hackenberger, Giuseppe Del Signore, Remigiusz Serwa, Ina Wilkening, Robert Vallee
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Patent number: 8574520Abstract: Described is a metal oxide support material containing nanoscaled iron-platinum group metal particles having a particle size in the range of 0.5 to 10 nm. At least 70% of the nanoscaled iron-platinum group metal particles are located on an outside surface layer of the metal oxide support material. The outside surface layer has an average volume of less than 50% based on the total volume of the metal oxide support material. Additionally, described is a process for preparation of metal oxide support materials containing nanoscaled iron-platinum group metal particles. Furthermore, described is the use of metal oxides containing nanoscaled iron-platinum group metal particles as catalysts, for example as a diesel oxidation catalyst for the treatment of exhaust gas emissions from a diesel engine.Type: GrantFiled: December 13, 2010Date of Patent: November 5, 2013Assignee: BASF SE LudwigshafenInventors: Tobias Joachim Koplin, Imme Domke, Christopher R. Castellano, Gerald Stephen Koermer, Wolfgang Schrof, Robert Feuerhake, Gunnar Schornick, Anna Cristadoro, Daniel Schönfelder, Hartmut Hibst, Mattijs Gregor Jurriaan Ten Cate
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Patent number: 8574893Abstract: A nucleic acid cleavage complex is disclosed, which includes: a nanoparticle, a nucleic acid cleavage reagent, and a polynucleotide chain specifically recognizing a sequence of a target nucleic acid and having a first terminal and a second terminal opposite to the first terminal, wherein the first terminal is connected to the nanoparticle, the second terminal is connected to the nucleic acid cleavage reagent, and the first terminal sequence and the second terminal sequence are base-paired to make the polynucleotide chain form a hairpin. Also, a method for using the nucleic acid cleavage complex is also disclosed.Type: GrantFiled: November 3, 2011Date of Patent: November 5, 2013Assignee: National Cheng Kung UniversityInventors: Dar-Bin Shieh, Ying-Ying Li, Hung-Ching Lu
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Patent number: 8563020Abstract: Embodiments of the invention are directed to a composition having antimicrobial activity comprising particles comprising at least one inorganic copper salt; and at least one functionalizing agent in contact with the particles, the functionalizing agent stabilizing the particle in a carrier such that an antimicrobially effective amount of ions are released into the environment of a microbe. The average size of the particles ranges from about 1000 nm to about 4 nm. Preferred copper salts include copper iodide, copper bromide and copper chloride. Preferred functionalizing agents include amino acids, thiols, hydrophilic polymers emulsions of hydrophobic polymers and surfactants.Type: GrantFiled: June 14, 2012Date of Patent: October 22, 2013Assignee: Agienic, Inc.Inventors: Donald R. Uhlmann, Anoop Agrawal, Murat Akarsu, John P. Cronin
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Patent number: 8557727Abstract: A method of forming a catalyst, comprising: providing a plurality of support particles and a plurality of mobility-inhibiting particles, wherein each support particle in the plurality of support particles is bonded with its own catalytic particle; and bonding the plurality of mobility-inhibiting particles to the plurality of support particles, wherein each support particle is separated from every other support particle in the plurality of support particles by at least one of the mobility-inhibiting particles, and wherein the mobility-inhibiting particles are configured to prevent the catalytic particles from moving from one support particle to another support particle.Type: GrantFiled: December 7, 2010Date of Patent: October 15, 2013Assignee: SDCmaterials, Inc.Inventors: Qinghua Yin, Xiwang Qi, Maximilian A. Biberger
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Publication number: 20130258551Abstract: There are provided a conductive paste composition for an internal electrode and a multilayer ceramic capacitor including the same. The conductive paste composition for an internal electrode includes metal powder; and chrome oxide (Cr2O3) or titanium oxide (TiO2) powder having a melting point higher than the melting point of the metal powder. The conductive paste composition for an internal electrode may increase a sintering shrinkage temperature of the internal electrode and improve connection properties of the internal electrode.Type: ApplicationFiled: June 25, 2012Publication date: October 3, 2013Inventors: Jong Han KIM, Seung Ho Lee, Jae Yeol Choi, Eung Soo Kim
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Publication number: 20130259905Abstract: A composition capable of inducing endoplasmic reticulum stress including nanogold particles and a solvent is disclosed. After a chronic myelogenous leukemia patient intakes the composition capable of inducing endoplasmic reticulum stress, the endoplasmic reticulum stress of the chronic myelogenous leukemia cells is induced to cause apoptosis and cell death, so as to alleviate and control chronic myelogenous leukemia.Type: ApplicationFiled: July 5, 2012Publication date: October 3, 2013Applicant: GOLD NANOTECH INC.Inventors: Chen Han-Min, Tan Shan-Wen
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Publication number: 20130252274Abstract: The present invention provides a metal nanoparticle that is surface-modified with a hydrophilic or hydrophobic functional group, and a composition for optical detection comprising the same. The surface-modified nanoparticles according to the present invention form clusters suitable for optical detection, for example, suitable as an X-ray contrast agent, and have surface plasmon energy in the visible region, thereby being usefully applied to a variety of optical detection methods.Type: ApplicationFiled: May 21, 2013Publication date: September 26, 2013Applicant: POSTECH ACADEMY-INDUSTRY FOUNDATIONInventors: Sang Joon LEE, Sung Yong Jung, Sungsook Ahn, Jin Pyung Lee, Hae Koo Kim