Abstract: A method of growing electrochemically active materials in situ within a dispersed conductive matrix to yield nanocomposite cathodes or anodes for electrochemical devices, such as lithium-ion batteries. The method involves an in situ formation of a precursor of the electrochemically active materials within the dispersed conductive matrix followed by a chemical reaction to subsequently produce the nanocomposite cathodes or anodes, wherein: the electrochemically active materials comprise nanocrystalline or microcrystalline electrochemically active metal oxides, metal phosphates or other electrochemically active materials; the dispersed conductive matrix forms an interconnected percolation network of electrically conductive filaments or particles, such as carbon nanotubes; and the nanocomposite cathodes or anodes comprise a homogeneous distribution of the electrochemically active materials within the dispersed conductive matrix.
Type:
Application
Filed:
July 19, 2012
Publication date:
January 24, 2013
Applicant:
THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
Inventors:
Jon Fold von Bulow, Hong-Li Zhang, Daniel E. Morse
Abstract: The present disclosure relates to a stable graphene film, a preparing method of the stable graphene film, a graphene transparent electrode including the stable graphene film, and a touch screen including the stable graphene film.
Type:
Application
Filed:
June 25, 2012
Publication date:
January 24, 2013
Applicant:
RESEARCH & BUSINESS FOUNDATION SUNGKYUNKWAN UNIVERSITY
Inventors:
Jong-Hyun AHN, Byung Hee HONG, Chao YAN
Abstract: The present invention relates to the water soluble self fluorescent quantum carbon dots (C-dots). These C-dots are isolated from carbon soot in one embodiment a wax soot solvent washed and isolated from other larger material by filtration such as by membrane filtration. The C-dots can be varied in their color by change of their size and by the amount of oxidative groups' position on each C-dot.
Abstract: A water treatment device includes an inner canister or cylinder that includes a seal and a filter assembly attached on one end. The water treatment device also includes an outer canister which is filled with unpurified water. The inner canister or cylinder is pressed into the outer canister to produce pressure on unpurified water that forces the unpurified water through the filter assembly. The inner canister or cylinder can be opened to reveal drinkable, or substantially purified water.
Abstract: An electromagnetic device and method for fabrication includes a substrate and a layer of graphene formed on the substrate. A metallization layer is patterned on the graphene. The metallization layer forms electrodes such that when the graphene is excited by light, terahertz frequency radiation is generated.
Type:
Application
Filed:
July 14, 2011
Publication date:
January 17, 2013
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
PHAEDON AVOURIS, Chun-Yung Sung, Alberto Valdes Garcia, Fengnian Xia
Abstract: Optoelectronic devices and thin-film semiconductor compositions and methods for making same are disclosed. The methods provide for the synthesis of the disclosed composition. The thin-film semiconductor compositions disclosed herein have a unique configuration that exhibits efficient photo-induced charge transfer and high transparency to visible light.
Type:
Application
Filed:
May 25, 2012
Publication date:
January 17, 2013
Applicant:
Brookhaven Science Associates, LLC
Inventors:
Mircea Cotlet, Hsing-Lin Wang, Hsinhan Tsai, Zhihua Xu
Abstract: Processes for preparation of an epitaxial graphene surface to make it suitable for deposition of high-? oxide-based dielectric compounds such as Al2O3, HfO2, TaO5, or TiO2 are provided. A first process combines ex situ wet chemistry conditioning of an epitaxially grown graphene sample with an in situ pulsing sequence in the ALD reactor. A second process combines ex situ dry chemistry conditioning of the epitaxially grown graphene sample with the in situ pulsing sequence.
Type:
Application
Filed:
July 14, 2011
Publication date:
January 17, 2013
Applicant:
The Government of the United States of America, as represented by the Secretary of the Navy
Inventors:
Nelson Garces, Virginia D. Wheeler, David Kurt Gaskill, Charles R. Eddy, JR., Glenn G. Jernigan
Abstract: A graphene nano-sensor with a suspended graphene flake electrically connected to metal electrodes. The graphene nano-sensor is capable of detecting single molecules in an atmosphere through a change in electrical conductance through the graphene flake.
Abstract: Provided are a photoelectric conversion device capable of controlling an absorbance of the red region at a wavelength of 600 nm or more, and an imaging device having an improved color reproduction by using the photoelectric device. Provided are a photoelectric conversion device that includes a pair of electrodes, and a photoelectric conversion layer disposed between the pair of electrodes, in which the photoelectric conversion layer contains a p-type semiconductor compound and two or more different kinds of unsubstituted fullerenes, and an imaging device that includes the photoelectric conversion device.
Abstract: [Means for solving] A graphene oxide sheet which changes to a substance having a graphene structure when reduced, and which is obtainable by dispersing a graphene-containing carbon substance using a dispersant to reduce the size of the aggregate units of the graphene-containing carbon substance, and then oxidizing the graphene-containing carbon substance.
Abstract: Disclosed is an edge-functionalized graphitic material manufactured by using a mechanochemical process. The edge-functionalized graphitic material is manufactured by pulverizing graphite in the presence of a variety of atmospheric agents in the form of gas phase, liquid phase, or solid phase. The edge-functionalized graphitic material, which is a precursor applicable into various fields, is expected to replace the prior art oxidized graphite.
Type:
Application
Filed:
October 10, 2011
Publication date:
January 17, 2013
Applicant:
UNIST Academy-Industry Research Corporation
Abstract: A method for forming a protective coat upon an article includes forming a liquid coating mixture comprising a cross-linking agent and a polymer dissolved within a solvent; applying a first coat of the coating mixture upon the article; evaporating the solvent from the first coat; and cross-linking the article. Also disclosed is a device containing an exterior surface at least partially covered by a coating comprising a cross-linked polymer and a filler material that is selected from the group consisting of a fullerene, a micro-encapsulated material, and a combination of two or more thereof.
Type:
Application
Filed:
July 7, 2011
Publication date:
January 10, 2013
Applicant:
BAKER HUGHES INCORPORATED
Inventors:
Gabriela Wiese, Hendrik John, Sven van Delden, Jan Tomczak
Abstract: Provided herein are novel template electrode materials and structures for lithium ion cells. Related methods are also provided. According to various embodiments, an electrode can include a nanostructured template, an electrochemically active material layer coating the template, and a first intermediate layer between the nanostructured template and the electrochemically active material layer. In one arrangement, the nanostructured template includes silicide nanowires. The electrochemically active material may be any of silicon, tin, germanium, carbon, metal hydrides, silicides, phosphides, and nitrides. The first intermediate layer may facilitate adhesion between the nanostructured template and the electrochemically active material layer, electronic conductivity within the electrode, and/or stress relaxation between the nanostructured template and the electrochemically active material layer.
Abstract: A method of making a metal electrode on the surface of a hydrophobic material (7), the method comprising the steps of: [1] bringing one end of a capillary (5) containing a fluid that includes particles of metal dissolved in a solvent close to a zone of the surface of the material (7); and [2] illuminating said zone by means of laser radiation (3) so as to have the effects of causing a drop of fluid to flow from the capillary, of depositing the drop on the zone, of evaporating the solvent contained in the drop, and of annealing the metal particles on the surface of the material in order to form the electrode.
Type:
Application
Filed:
March 24, 2011
Publication date:
January 10, 2013
Applicants:
CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE, UNIVERSITE PIERRE ET MARIE CURIE (PARIS 6)
Inventors:
Gilgueng Hwang, Dogan Sinan Haliyo, Stéphane Regnier
Abstract: A PMC fabric includes a plurality of monofilament yarns. At least some of the monofilament yarns have a composition which is a mixture of a thermoplastic resin and an additive to improve yarn visibility. The additive may be, e.g., a UV additive, an IR additive and/or a metal powder additive.
Abstract: A secondary battery includes a base material, an intermediate layer including a carbon material on the base material, and an active material layer on the intermediate layer. A secondary battery including an intermediate layer may improve adhesion between the base material and the active material layer, thereby reducing the risk of separation of the active material from the base material and improving the reliability and lifetime of the secondary battery.
Type:
Application
Filed:
May 14, 2012
Publication date:
January 10, 2013
Inventors:
Jun-Sik Kim, So-Ra Lee, Sung-Soo Kim, Soo-An Song, Jeong-Soon Shin
Abstract: The invention relates to a method for applying to a substrate a coating composition containing carbon in the form of carbon nanotubes, graphenes, fullerenes, or mixtures thereof and metal particles. The invention further relates to the coated substrate produced by the method according to the invention and to the use of the coated substrate as an electromechanical component.
Abstract: A method of preparing graphene sheets. The method includes: immersing a portion of a first electrode and a portion of a second electrode in a solution containing an acid, an anionic surfactant, a salt, an oxidizing agent, or any combination thereof as an electrolyte, the immersed portion of the first electrode including a first carbon material and the immersed portion of the second electrode including a second carbon material or a metal; causing a potential to exist between the first and second electrodes; and recovering, from the solution, graphene sheets exfoliated from the carbon material(s). Also disclosed is a method of preparing a graphene film electrode. The method includes: dissolving graphene sheets in an organic solvent to form a solution, applying the solution on a substrate, adding deionized water to the solution on the substrate so that a graphene film is formed, and drying the graphene film.
Abstract: Combinations of materials are described in which high energy density active materials for negative electrodes of lithium ion batteries. In general, metal alloy/intermetallic compositions can provide the high energy density. These materials can have moderate volume changes upon cycling in a lithium ion battery. The volume changes can be accommodated with less degradation upon cycling through the combination with highly porous electrically conductive materials, such as highly porous carbon and/or foamed current collectors. Whether or not combined with a highly porous electrically conductive material, metal alloy/intermetallic compositions with an average particle size of no more than a micron can be advantageously used in the negative electrodes to improve cycling properties.
Abstract: Various embodiments of the present invention pertain to therapeutic compositions that comprise: (1) an active agent (e.g., paclitaxel); and (2) a nanoparticle (e.g., gold nanoparticle). In such embodiments, the active agent is covalently linked to the nanoparticle through a cleavable linker (e.g., a linker containing a hydrazone species). Other embodiments of the present invention pertain to methods of treating a condition in a subject by administering the above-described therapeutic compositions to the subject.
Abstract: The application generally relates to a process for generating hydrogen, oxygen or both from water. More particularly, the application generally relates to a lanthanide-mediated electrochemical and/or photoelectrochemical process for generating hydrogen, oxygen or both from water.
Type:
Application
Filed:
May 7, 2012
Publication date:
January 3, 2013
Applicant:
MOLYCORP MINERALS, LLC
Inventors:
Robert Cable, Anthony J. Perrotta, Carl Hassler, John Burba
Abstract: An anti-hepatitis C virus agent or anti-HIV agent comprising, as an active ingredient, a fullerene derivative which has a nitrogen atom forming a ring together with adjacent bonded carbon atom pairs constituting the carbon cluster skeleton of the fullerene or a quaternary amine salt thereof is provided.
Abstract: Coated particles comprise a core particle comprising a superhard material and having an average diameter of between 1 ?m and 500 ?m. A coating material is adhered to and covers at least a portion of an outer surface of the core particle, the coating material comprising an amine terminated group. A plurality of nanoparticles selected from the group consisting of carbon nanotubes, nanographite, nanographene, non-diamond carbon allotropes, surface modified nanodiamond, nanoscale particles of BeO, and nanoscale particles comprising a Group VIIIA element is adhered to the coating material.
Abstract: Compositions of discrete carbon nanotubes for improved performance lead acid batteries. Further disclosed is a method to form a lead-acid battery with discrete carbon nanotubes.
Abstract: A lubricating and shock absorbing materials are described, which are based on nanoparticles having the formula A1-x-Bx-chalcogenide. Processes for their manufacture are also described.
Type:
Application
Filed:
March 10, 2011
Publication date:
December 27, 2012
Inventors:
Reshef Tenne, Francis Leonard Deepak, Hagai Cohen, Sidney R. Cohen, Rita Rosentsveig, Lena Yadgarov
Abstract: Microfluidic devices in which electrokinetic mechanisms move droplets of a liquid or particles in a liquid are described. The devices include at least one electrode that is optically transparent and/or flexible.
Type:
Application
Filed:
June 1, 2012
Publication date:
December 27, 2012
Applicant:
THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
Inventors:
Pei-Yu E. Chiou, Kuo-Wei Huang, Igor Y. Khandros, Ming C. Wu
Abstract: A graphene structure and a method of manufacturing the graphene structure, and a graphene device and a method of manufacturing the graphene device. The graphene structure includes a substrate; a growth layer disposed on the substrate and having exposed side surfaces; and a graphene layer disposed on the side surfaces of the growth layer.
Abstract: Graphene which is permeable to lithium ions and can be used for electric appliances is provided. A carbocyclic ring including nine or more ring members is provided in graphene. The maximum potential energy of the carbocyclic ring including nine or more ring members to a lithium ion is substantially 0 eV. Therefore, the carbocyclic ring including nine or more ring members can function as a hole through which lithium ions pass. When a surface of an electrode or an active material is coated with such graphene, reaction of the electrode or the active material with an electrolyte can be suppressed without interference with the movement of lithium ions.
Type:
Application
Filed:
June 19, 2012
Publication date:
December 27, 2012
Applicant:
SEMICONDUCTOR ENERGY LABORATORY CO., LTD.
Abstract: A method of directly growing graphene of a graphene-layered structure, the method including ion-implanting at least one ion of a nitrogen ion and an oxygen ion on a surface of a silicon carbide (SiC) thin film to form an ion implantation layer in the SiC thin film; and heat treating the SiC thin film with the ion implantation layer formed therein to graphenize a SiC surface layer existing on the ion implantation layer.
Type:
Application
Filed:
June 22, 2012
Publication date:
December 27, 2012
Applicant:
SAMSUNG ELECTRONICS CO., LTD.
Inventors:
Hyeon-jin SHIN, Jae-young CHOI, Joung-real AHN, Jung-tak SEO
Abstract: To provide graphene through which ions can transfer in the direction perpendicular to a plane of the graphene. Multilayer graphene includes a plurality of graphenes stacked in a layered manner. The plurality of graphenes contain a six-membered ring composed of carbon atoms, a poly-membered ring which is a seven or more-membered ring composed of carbon atoms or carbon atoms and one or more oxygen atoms, and an oxygen atom bonded to one of the carbon atoms in the six-membered ring and the poly-membered ring, which is a seven or more-membered ring. The interlayer distance between adjacent graphenes of the plurality of graphenes is greater than 0.34 nm and less than or equal to 0.5 nm, preferably greater than or equal to 0.38 nm and less than or equal to 0.42 nm.
Type:
Application
Filed:
June 19, 2012
Publication date:
December 27, 2012
Applicant:
SEMICONDUCTOR ENERGY LABORATORY CO., LTD.
Inventors:
Teppei OGUNI, Hiroatsu TODORIKI, Takeshi OSADA
Abstract: An object is to provide graphene which has high conductivity and is permeable to ions of lithium or the like. Another object is to provide, with use of the graphene, a power storage device with excellent charging and discharging characteristics. Graphene having a hole inside a ring-like structure formed by carbon and nitrogen has conductivity and is permeable to ions of lithium or the like. The nitrogen concentration in graphene is preferably higher than or equal to 0.4 at. % and lower than or equal to 40 at. %. With use of such graphene, ions of lithium or the like can be preferably made to pass; thus, a power storage device with excellent charging and discharging characteristics can be provided.
Type:
Application
Filed:
June 19, 2012
Publication date:
December 27, 2012
Applicant:
Semiconductor Energy Laboratory Co., Ltd.
Abstract: A method of forming a transistor structure is provided. The method includes forming a graphene layer on an insulating layer; forming a stack of a first metal portion and a second metal portion over the graphene layer, wherein sidewalls of the first metal portion are vertically coincident with sidewalls of the second metal portion; and laterally offsetting the sidewalls of the first metal portion relative to the sidewalls of the second metal portion by a lateral distance.
Type:
Application
Filed:
September 1, 2012
Publication date:
December 27, 2012
Applicant:
International Business Machines Corporation
Inventors:
PHAEDON AVOURIS, DAMON B. FARMER, YU-MING LIN, YU ZHU
Abstract: New methods for preparing carbon nanotube films having enhanced properties are provided. The method broadly provides reacting carbon nanotubes (CNTs) and compounds comprising a polyaromatic moieties in the presence a strong acid. During the reaction process, the polyaromatic moieties noncovalently bond with the carbon nanotubes. Additionally, the functionalizing moieties are further functionalized by the strong acid. This dual functionalization allows the CNTs to be dispersed at concentrations greater than 0.5 g/L in solution without damaging their desirable electronic and physical properties. The resulting solutions are stable on the shelf for months without observable bundling, and can be incorporated into solutions for printing conductive traces by a variety of means, including inkjet, screen, flexographic, gravure printing, or spin and spray coating.
Abstract: Transistor devices having nanoscale material-based channels (e.g., carbon nanotube or graphene channels) and techniques for the fabrication thereof are provided. In one aspect, a transistor device is provided. The transistor device includes a substrate; an insulator on the substrate; a local bottom gate embedded in the insulator, wherein a top surface of the gate is substantially coplanar with a surface of the insulator; a local gate dielectric on the bottom gate; a carbon-based nanostructure material over at least a portion of the local gate dielectric, wherein a portion of the carbon-based nanostructure material serves as a channel of the device; and conductive source and drain contacts to one or more portions of the carbon-based nanostructure material on opposing sides of the channel that serve as source and drain regions of the device.
Type:
Application
Filed:
June 23, 2011
Publication date:
December 27, 2012
Applicant:
International Business Machines Corporation
Inventors:
Zhihong Chen, Aaron Daniel Franklin, Shu-Jen Han, James Bowler Hannon, Katherine L. Saenger, George Stojan Tulevski
Abstract: The present invention provides a negative-electrode material for a lithium secondary battery which has a very low resistance, allows the lithium secondary battery to be charged and discharged (high output) at a high current and have a high capacity, and achieve a cycle life to such an extent that the lithium secondary battery can be mounted on a vehicle. The electrode material is composed of (a) at least one active substance (4) selected from among a metal oxide containing metal therein and an alloy material each of which is coated with a carbon material and has a graphene phase or an amorphous phase (8) on at least a surface thereof, (b) a graphite-based carbon material (5) having the graphene phase or the amorphous phase on at least a surface thereof; and (c) carbon material (6) other than the graphite-based carbon material and having the graphene phase or the amorphous phase on at least a surface thereof.
Type:
Application
Filed:
July 7, 2011
Publication date:
December 27, 2012
Applicants:
DENKI KAGAKU KOGYO KABUSHIKI KAISHA, SEI CORPORATION
Abstract: A photovoltaic device and method include a photovoltaic stack having an N-doped layer, a P-doped layer and an intrinsic layer. A transparent electrode is formed on the photovoltaic stack and includes a carbon based layer and a high work function metal layer. The high work function metal layer is disposed at an interface between the carbon based layer and the P-doped layer such that the high work function metal layer forms a reduced barrier contact and is light transmissive.
Type:
Application
Filed:
June 21, 2011
Publication date:
December 27, 2012
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
BHUPESH CHANDRA, Augustin J. Hong, Jeehwan Kim, Devendra K. Sadana, George S. Tulevski
Abstract: A graphene layer is formed on a crystallographic surface having a non-hexagonal symmetry. The crystallographic surface can be a surface of a single crystalline semiconductor carbide layer. The non-hexagonal symmetry surface of the single crystalline semiconductor carbide layer is annealed at an elevated temperature in ultra-high vacuum environment to form the graphene layer. During the anneal, the semiconductor atoms on the non-hexagonal surface of the single crystalline semiconductor carbide layer are evaporated selective to the carbon atoms. As the semiconductor atoms are selectively removed, the carbon concentration on the surface of the semiconductor-carbon alloy layer increases. Despite the non-hexagonal symmetry of the surface of the semiconductor-carbon alloy layer, the remaining carbon atoms can coalesce to form a graphene layer having hexagonal symmetry.
Type:
Application
Filed:
August 28, 2012
Publication date:
December 20, 2012
Applicant:
International Business Machines Corporation
Inventors:
Jack O. Chu, Christos Dimitrakopoulos, Marcus O. Freitag, Alfred Grill, Timothy J. McArdle, Chun-Yung Sung, Robert L. Wisnieff
Abstract: A base fluid may contain nanoparticles where the base fluid may include a non-aqueous fluid, an aqueous fluid, and combinations thereof. The fluid may have a resistivity range of from about 0.02 ohm-m to about 1,000,000 ohm-m. The non-aqueous fluid may be a brine-in-oil emulsion, or a water-in-oil emulsion; and the aqueous fluid may be an oil-in-water emulsion, or an oil-in-brine emulsion; and combinations thereof. The addition of nanoparticles to the base fluid may improve or increase the electrical conductivity and other electrical properties of the fluid. The fluid may be a drilling fluid, a completion fluid, a production fluid, and/or a stimulation fluid.
Type:
Application
Filed:
July 10, 2012
Publication date:
December 20, 2012
Applicant:
BAKER HUGHES INCORPORATED
Inventors:
Othon Rego Monteiro, Jonathan J. Brege, Lirio Quintero, Soma Chakroborty, Ashley D. Leonard, Chad F. Christian
Abstract: Technologies are generally described for forming graphene and structures including graphene. In an example, a system effective to form graphene may include a chamber adapted to receive graphite oxide. The system may also include a source of an inert gas and a source of hydrogen, which may both be configured in communication with the chamber. A processor may be configured in communication with the chamber, the inert gas source and/or the hydrogen source. The processor may be further configured to control the flow of the inert gas from the first source through the chamber under first sufficient reaction conditions to remove at least some oxygen from the atmosphere of the chamber. The processor may also be configured to control the flow of the hydrogen from the second source to the graphite oxide in the chamber under second sufficient reaction conditions to form graphene from the graphite oxide.
Abstract: Photovoltaic cells comprising an active layer comprising, as p-type material, conjugated polymers such as polythiophene and regioregular polythiophene, and as n-type material at least one fullerene derivative. The fullerene derivative can be C60, C70, or C84. The fullerene also can be functionalized with indene groups. Improved efficiency can be achieved.
Type:
Application
Filed:
June 18, 2012
Publication date:
December 20, 2012
Inventors:
Darin W. Laird, Reza Stegamat, Malika Daadi, Henning Richter, Viktor Vejins, Larry Scott, Thomas A. Lada
Abstract: A secondary battery including an intermediate layer having a pattern formed by carbon and a binder between a substrate and an active material layer and reinforcing adhesion between the substrate and the active material layer. In the intermediate layer, the carbon and the binder in the intermediate layer are adjacent to each other. Therefore, the active material is prevented from being detached from the substrate, thereby improving performance of the secondary battery. A small amount of the binder having strong adhesion is used in the active material slurry, thereby ensuring safety of the battery.
Abstract: There are provided a cluster of thin sheet graphite crystals or the like which is useful as an electrode material for lithium ion batteries, hybrid capacitors and the like, and a method for efficiently producing the same at high productivity. The method is one for producing a cluster of thin sheet graphite crystals composed of aggregates in such a state that thin sheet graphite crystals extend from the inside toward the outside, comprising charging a powdery and/or particulate material of an organic compound pre-baked to an extent of containing remaining hydrogen in a graphite vessel, and subjecting the powdery and/or particulate material together with the vessel to hot isostatic pressing treatment (HIP treatment) using a compressed gas atmosphere under the predetermined conditions.
Abstract: There is provided a soft electrode material including an electrode layer containing a mixture of carbon black and at least one selected from carbon nanotube and graphene, so that the soft electrode material can facilitate various transformation thereof in response to physical transformation of an electrode, such as warpage, elongation, and the like; prevent the rapid reduction in electric conductivity of an electrode while maintaining flexibility and elasticity of the electrode at the time of the transformation; and provide excellent reliability, and thus, electrical-mechanical energy conversion efficiency of a soft electronic component such as an actuator including the soft electrode material, can be increased, and electric conductivity of the electrode layer can be improved as the electrical-mechanical conversion efficiency increases.
Type:
Application
Filed:
February 24, 2011
Publication date:
December 13, 2012
Applicant:
CIJ. CO., LTD.
Inventors:
Jong Tae Baek, Moon Pyung Park, Hyung-Ho Park, Hyuncheol Kim, Jin-Seok Lee
Abstract: A high-strength, lightweight inflatable structure is formed of at least one flexible fabric member that, in an inflated condition, forms a self-supporting structure. The flexible fabric member is formed from a bare fabric having an areal weight of less than 4.5 oz/yd2. The fabric is coated with air-impervious resin coating comprising a polyurethane resin having a mixture of graphene nanoplatelets and a phosphorus-based flame retardant added thereto. The thermally exfoliated graphene nanoplatelets contain residual graphene oxide. Graphene oxide, which is a polar molecule, has an affinity for the polar molecules that make up the phosphorus based flame retardant. Accordingly, in addition to its inherent flame-retardant properties, the phosphorus based flame retardant acts as a dispersant to improve the uniform dispersion of the graphene nanoplatelets within the matrix, thus reducing or eliminating the need to use additional dispersants.
Type:
Application
Filed:
June 6, 2012
Publication date:
December 13, 2012
Applicant:
Goodrich Corporation
Inventors:
Anthony M. Mazany, Robert Bianco, Ray K George
Abstract: The invention relates to a graphene-modified lithium iron phosphate positive electrode active material and a method for preparing the same, as well as a lithium-ion secondary cell based on this positive electrode active material. The positive electrode active material is prepared by a method in which graphene or graphene oxide and lithium iron phosphate are dispersed in an aqueous solution, agitated and ultrasonicated to mix homogeneously and for a mixture, dried to obtain a lithium iron phosphate material compounded with graphene or graphene oxide, and annealed at high temperature to obtain finally a graphene-modified lithium iron phosphate positive electrode active material. When compared with conventional modified lithium cells coated with carbon or doped with conductive polymers, the lithium-ion secondary cell based on this positive electrode active material features high cell capacity, good cycling performance of charge and discharge, long life and high cycle stability, and has great utility value.
Type:
Application
Filed:
January 22, 2010
Publication date:
December 13, 2012
Applicant:
Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences
Abstract: A nanostructure, being either an Inorganic Fullerene-like (IF) nanostructure or an Inorganic Nanotube (INT), having the formula A1?x-Bx-chalcogenide are described. A being a metal or transition metal or an alloy of metals and/or transition metals, B being a metal or transition metal B different from that of A and x being ?0.3. A process for their manufacture and their use for modifying the electronic character of A-chalcogenide are described.
Type:
Grant
Filed:
March 10, 2010
Date of Patent:
December 11, 2012
Assignee:
Yeda Research and Development Company Ltd.
Inventors:
Reshef Tenne, Francis Leonard Deepak, Hagai Cohen, Sidney R. Cohen, Rita Rosentsveig, Lena Yadgarov
Abstract: Disclosed are a method for preparing pure graphene using chemical bonding between graphite oxide and metal oxide nanoparticles, and graphene and nanoparticles having a quasi metal oxide-graphene core-shell prepared therefrom. The disclosed method for preparing graphene allows chemical bonding and separation through a simple acid treatment process using inexpensive materials. Also, because the reaction can be carried out at low temperature, the processing cost is low. And, pure graphene with few impurities can be prepared quickly in large scale.
Type:
Application
Filed:
July 29, 2011
Publication date:
December 6, 2012
Applicant:
KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY
Inventors:
Won Kook CHOI, Dong Hee PARK, Byoung Wook KWON, Dong Ick SON
Abstract: Embodiments of graphene channel transistors and methods for producing same are provided herein. In some embodiments, a graphene channel transistor may include a substrate a having a source region, a drain region, and a dielectric material disposed between the source and drain regions; a channel region comprising a graphene layer disposed atop the dielectric material and partially atop the source and drain regions; and a composite gate electrode comprising an insulator layer disposed atop the graphene layer and a conductive layer disposed atop the insulator layer.
Abstract: A nanostructure film, comprising at least one interconnected network of nanostructures, wherein the nanostructure film is optically transparent and electrically conductive. A method for improving the optoelectronic properties of a nanostructure film, comprising: forming a nanostructure film having a thickness that, if uniform, would result in a first optical transparency and a first sheet resistance that are lower than desired; and patterning holes in the nanostructure film, such that a desired higher second optical transparency and a second sheet resistance are achieved. A method for depositing a nanostructure film on a rigid substrate comprises: depositing the nanostructure film on a flexible substrate; and transferring the nanostructure film from the flexible substrate to a rigid substrate, wherein the flexible substrate comprises at least one of a release liner and a heat- or chemical-sensitive adhesive layer.
Type:
Application
Filed:
May 31, 2012
Publication date:
December 6, 2012
Inventors:
Paul Drazaic, David Hecht, Michael O'Connell, Glen Irvin