Abstract: A wire of an embodiment includes: a substrate; a metal film provided on the substrate; a metal part provided on the metal film; and graphene wires formed on the metal part, wherein the graphene wire is electrically connected to the metal film, and the metal film and the metal part are formed using different metals or alloys from each other.
Abstract: Various embodiments provide materials and methods for forming a graphene product by vacuum induction heating expandable graphite. The graphene product can include graphene nano-sheets with high purity and uniform thickness. The graphene nano-sheets can contain carbon of more than about 99% by weight. The graphene nano-sheets can be exfoliated or dispersed within a matrix of a semiconducting polymer to form a graphene-containing composite.
Abstract: A method for doping a graphene or nanotube thin-film field-effect transistor device to improve electronic mobility. The method includes selectively applying a dopant to a channel region of a graphene or nanotube thin-film field-effect transistor device to improve electronic mobility of the field-effect transistor device.
Type:
Application
Filed:
September 26, 2012
Publication date:
May 30, 2013
Applicant:
International Business Machines Corporation
Inventor:
International Business Machines Corporation
Abstract: The present invention relates to a graphene composition having liquid crystalline properties and a preparation method thereof, and more particularly to a graphene composition wherein graphene having useful electrical properties is uniformly dispersed in a medium, whereby it is chemically and physically stable, exhibits a liquid crystal phase in a wide temperature range and has good compatibility with other compounds, and to a preparation method thereof. In the graphene composition, liquid crystalline properties are imparted to graphene, which can be produced in large amounts and has excellent mechanical, chemical and electrical properties, and thus the graphene composition can provide a chance to apply functional carbon materials in various fields, including nanocomposites, energy storage materials, and photonics.
Type:
Grant
Filed:
December 22, 2010
Date of Patent:
May 28, 2013
Assignee:
Korea Advanced Institute of Science and Technology
Inventors:
Sang Ouk Kim, Ji Eun Kim, Tae Hee Han, Sun Hwa Lee, Ju Young Kim
Abstract: Polymeric article reinforced with a reinforcing component. The reinforcing component includes a composition made from at least one polymer and graphene sheets.
Type:
Grant
Filed:
September 16, 2011
Date of Patent:
May 28, 2013
Assignees:
Kordsa Global Endustriyel Iplik Ve Kord Bezi Sanayi Ve Ticaret A.S., Vorbeck Materials Corp.
Inventors:
Ilhan A. Aksay, Bora Buyukdincer, Nurcin Javaherian, John S. Lettow, Gustavo Pino, Kate Redmond, Ibrahim O. Yildirim
Abstract: The present disclosure relates to a method for making a conjugated polymer. In the method, polyacrylonitrile, a solvent, and a catalyst are provided. The polyacrylonitrile is dissolved in the solvent to form a polyacrylonitrile solution. The catalyst is uniformly dispersed into the polyacrylonitrile solution. The polyacrylonitrile solution with the catalyst is heated to induce a cyclizing reaction of the polyacrylonitrile, thereby forming a conjugated polymer solution with the conjugated polymer dissolved therein.
Type:
Grant
Filed:
March 18, 2011
Date of Patent:
May 28, 2013
Assignees:
Tsinghua University, Hon Hai Precision Industry Co., Ltd.
Inventors:
Xiang-Ming He, Li Wang, Wei-Hua Pu, Wen-Ting Sun, Jian-Jun Li
Abstract: A photodetector includes a substrate, a graphene layer disposed on the substrate, a first electrode disposed on the graphene layer, and a second electrode disposed on the graphene layer, where the first and second electrodes are spaced apart from each other, and where each of the first and second electrodes comprises a complex transparent electrode. The complex transparent electrode of the first electrode may have a different composition from the complex transparent electrode of the second electrode.
Abstract: A method, an apparatus and an article of manufacture for attracting charged nanoparticles using a graphene nanomesh. The method includes creating a graphene nanomesh by generating multiple holes in graphene, wherein each of the multiple holes is of a size appropriate to a targeted charged nanoparticle, selectively passivating the multiple holes of the graphene nanomesh to form a charged ring in the graphene nanomesh by treating the graphene nanomesh with chemistry yielding a trap with an opposite charge to that of the targeted nanoparticle, and electrostatically attracting the target charged nanoparticle to the oppositely charged ring to facilitate docking of the charged nanoparticle to the graphene nanomesh.
Type:
Application
Filed:
November 22, 2011
Publication date:
May 23, 2013
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
Ali Afzali-Ardakani, Ahmed Maarouf, Glenn J. Martyna
Abstract: A silicon-based shape memory alloy negative active material includes a silicon-based material precipitated on a Ni2Mn1-XZX shape memory alloy basic material. In the silicon-based shape memory alloy negative active material, X satisfies the relationship 0?X?1 and Z is one of Al, Ga, In, Sn, or Sb.
Abstract: A fuel cell membrane and a method of making the same. The membrane includes at least one non-reinforced layer and at least one reinforced layer. Both layers include a proton-conductive ionomer, while the reinforced layer additionally includes nanofiber-supported catalyst that improve mechanical and chemical durability of the membrane. The nanofiber-supported catalyst is made up of structural fibers onto which an electrocatalyst is coated, deposited or otherwise formed. The structural nanofibers give increased strength and stiffness to the layers that include them, while the electrocatalyst helps to resist electrochemical degradation to the membranes that include them. Such a membrane may form the basis of a fuel cell's membrane electrode assembly.
Abstract: A nanotube-graphene hybrid film and method for forming a cleaned nanotube-graphene hybrid film. The method includes depositing nanotube film over a substrate to produce a layer of nanotube film, removing impurities from a surface of the layer of nanotube film not contacting the substrate to produce a cleaned layer of nanotube film, depositing a layer of graphene over the cleaned layer of nanotube film to produce a nanotube-graphene hybrid film, and removing impurities from a surface of the nanotube-graphene hybrid film to produce a cleaned nanotube-graphene hybrid film, wherein the hybrid film has improved electrical performance. Another method includes depositing nanotube film over a metal foil to produce a layer of nanotube film, placing the metal foil with as-deposited nanotube film in a chemical vapor deposition furnace to grow graphene on the nanotube film to form a nanotube-graphene hybrid film, and transferring the nanotube-graphene hybrid film over a substrate.
Type:
Application
Filed:
November 22, 2011
Publication date:
May 23, 2013
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
Ageeth A. Bol, Bhupesh Chandra, Amal Kasry, Ahmed Maarouf, Glenn J. Martyna, George S. Tulevski
Abstract: A method for cleaning a hot-wall type film formation apparatus having a batch processing system with industrially high mass productivity is provided. In the method, a carbon film deposited on an inner wall or the like of a reaction chamber of the apparatus is removed efficiently in a short time. To remove the carbon film deposited on the inner wall of the reaction chamber by a thermal CVD method, the reaction chamber is heated at a temperature higher than or equal to 700° C. and lower than or equal to 800° C., and oxygen is introduced into the reaction chamber.
Type:
Application
Filed:
November 19, 2012
Publication date:
May 23, 2013
Applicant:
SEMICONDUCTOR ENERGY LABORATORY CO., LTD.
Inventor:
Semiconductor Energy Laboratory Co., Ltd.
Abstract: A process of producing electrically conductive pathways within additively manufactured parts and similar parts made by plastic extrusion nozzles. The process allows for a three-dimensional part having both conductive and non-conductive portions and allows for such parts to be manufactured in a single production step.
Abstract: The present invention relates to an electrode for an energy storage and a method for manufacturing the same and provides a useful effect of improving resistance characteristics of an electrode for an energy storage and strengthening adhesion by forming trenches of predetermined dimensions on a surface of a current collector, forming a conductive layer, which includes a conductive agent as much as possible, on the surface of the current collector, and forming a bonding layer including an active material, a conductive agent, and a binder and an electrode layer including an active material and a binder on the conductive layer.
Type:
Application
Filed:
March 1, 2012
Publication date:
May 23, 2013
Inventors:
Jun Hee Bae, Bae Kyun Kim, Ho Jin Yun, Yeong Su Cho, Chang Ryul Jung, Hak Kwan Kim
Abstract: Disclosed is a transparent conductive film including a substrate, and a conductive composite on the substrate, wherein the conductive composite includes conductive carbon material and a non-carbon inorganic material having a surface modified by an electron-withdrawing group, and the non-carbon inorganic material contacts the conductive carbon material. Furthermore, the disclosed provides a method of manufacturing the transparent conductive film.
Abstract: A method of manufacturing a modified structure comprising a semiconducting modified graphene layer on a substrate, comprising the subsequent following steps: supply of an initial structure comprising at least one substrate, formation of a graphene layer on the substrate, hydrogenation of the initial structure by exposure to atomic hydrogen, characterised in that the hydrogenation step of the graphene layer is done with an exposure dose between 100 and 4000 Langmuirs, and forms a modified graphene layer.
Type:
Application
Filed:
November 9, 2010
Publication date:
May 23, 2013
Inventors:
Shirley Chiang, Hanna Enriquez, Hamid Oughaddou, Patrick Soukiassian, Antonio Tejeda Gala, Sébastien Vizzini
Abstract: Described herein are compositions that are photorefractive upon irradiation by multiple laser wavelengths across the visible light spectrum. Embodiments of the photorefractive composition comprise a polymer, a chromophore, and a sensitizer, wherein the polymer comprises a repeating unit including at least a moiety selected from the group consisting of the formulae (Ia), (Ib) and (Ic), as defined herein. The photorefractive composition can be used in optical devices.
Abstract: The invention relates to a method for producing a graphene sheet on a platinum silicide, wherein the platinum silicide is in the form of a layer or a plurality of pins. This method comprises: a) producing a stack by (i) depositing a layer C1 of a diffusion barrier material on a substrate; (ii) depositing, on the layer C1, a layer C2 of a carbon-containing material, wherein said carbon-containing material optionally comprises silicon; (iii) depositing, on the layer C2, a layer C3 of platinum; (iv) depositing a layer C4 of a material of formula SiaCbHc on the layer C3 if the carbon-containing material of the layer C2 is free from silicon; and b) heat-treating the stack obtained at step a). It also relates to structures obtained using this method and the uses of these structures. Applications: manufacture of micro- and nanoelectronic devices, micro- and nanoelectromechanical devices, etc.
Type:
Application
Filed:
November 6, 2012
Publication date:
May 23, 2013
Applicant:
Commissariat a l'energie atomique et aux energies alternatives
Inventor:
Commissariat a l'energie atomique et aux energies
Abstract: There is provided an electrode paste composition, an electrode for an electronic device using the same, and a method of manufacturing the same. The electrode for an electronic device includes: a substrate; a thin film layer formed on the substrate, the thin film layer including reduced graphene oxide (rGO); and an oxide layer formed between the substrate and the thin film layer. The electrode for an electronic device may have excellent uniform resistivity and electrical conductivity since the electrode is formed by coating the substrate with a solution containing graphene oxide having superior dispersibility and reducing the graphene oxide.
Abstract: A method for manufacturing a nanoscale cage of a material suitable for forming a molecular layer, including a step of shaping and packaging an object in the general shape of a revolving cylinder, the shaping and packaging step being adapted according to the position of the value of the diameter of the revolving cylinder relative to a threshold below which a folding of the ends of the cylinder is promoted.
Abstract: Improved mechanical properties of either clay or carbon nanotube (CNT)-reinforced polymer matrix nanocomposites are obtained by pre-treating nanoparticles and polymer pellets prior to a melt compounding process. The clay or CNTs are coated onto the surfaces of the polymer pellets by a milling process. The introduction of moisture into the mixture of the nanoparticles and the polymer pellets results in the nanoparticles more easily, firmly, and thoroughly coating onto the surfaces of the polymer pellets.
Abstract: An organic electroluminescence element having a cathode as a top electrode, and excelling in luminance efficiency, drive voltage, and operational life is provided. The organic electroluminescence element includes an anode over a substrate and a luminescent layer over the anode. The luminescent layer comprises an organic material. An electron injection layer is over the luminescent layer for injecting electrons into the luminescent layer. The electron injection layer is a metal including at least one of an alkaline metal and an alkaline earth metal. A fullerene layer is over the electron injection layer and includes fullerenes and at least one of an alkaline metal and an alkaline earth metal. The at least one of the alkaline metal and the alkaline earth metal included in the fullerene layer has a lower work function than a lowest unoccupied molecular orbit energy level of the fullerenes. A cathode is over the fullerene layer.
Abstract: A method of uncoupling mitochondria in a subject including administering nanotubes to the subject in a therapeutically effective amount, wherein the nanotubes are self-rectifying is provided. A method of decreasing reactive oxygen species and decreasing detrimental loading of Ca2+ into mitochondria is provided, including administering a pharmaceutically effective amount of nanotubes into the subject. A method of reducing weight, treating cancer, reducing the effects of traumatic brain injury, or reducing the effects of ageing, in a subject including administering a pharmaceutically effective amount of nanotubes into the subject is also provided.
Type:
Application
Filed:
December 18, 2012
Publication date:
May 16, 2013
Applicant:
University of Kentucky Research Foundation
Inventor:
University of Kentucky Research Foundation
Abstract: A graphene transistor includes: a gate electrode on a substrate; a gate insulating layer on the gate electrode; a graphene channel on the gate insulating layer; a source electrode and a drain electrode on the graphene channel, the source and drain electrode being separate from each other; and a cover that covers upper surfaces of the source electrode and the drain electrode and forms an air gap above the graphene channel between the source electrode and the drain electrode.
Type:
Application
Filed:
November 2, 2012
Publication date:
May 16, 2013
Applicant:
SAMSUNG ELECTRONICS CO., LTD.
Inventors:
Hyun-jong CHUNG, U-in CHUNG, Ki-nam KIM
Abstract: When C60 was added to synovial fibroblasts, infiltrating lymphocytes, and macrophages, and the inflammatory cytokine production level was measured, the inflammatory cytokine production level was significantly suppressed in all cells. Furthermore, when C60 was added to osteoclast precursor cells and cultured in the presence of osteoclast differentiation-inducing factors, a certain concentration or more of C60 suppressed their differentiation into osteoclasts. Observation of the effect of C60 addition on bone resorption showed that C60 suppressed bone resorption by osteoclasts. In addition, the use of arthritis model animals confirmed in vivo that C60 suppressed inflammatory symptoms, as well as bone resorption and bone destruction by osteoclasts. C60 is effective for treating arthritic diseases such as rheumatoid arthritis through its effects of suppressing osteoclast differentiation, bone resorption, and inflammatory cytokines.
Type:
Grant
Filed:
October 18, 2007
Date of Patent:
May 14, 2013
Assignees:
St. Marianna University School of Medicine, Mitsubishi Corporaion
Abstract: A plate varactor includes a dielectric substrate and a first electrode embedded in a surface of the substrate. A capacitor dielectric layer is disposed over the first electrode, and a layer of graphene is formed over the dielectric layer to contribute a quantum capacitance component to the dielectric layer. An upper electrode is formed on the layer of graphene. Other embodiments and methods for fabrication are also included.
Type:
Application
Filed:
November 8, 2011
Publication date:
May 9, 2013
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
ZHIHONG CHEN, SHU-JEN HAN, SIYURANGA O. KOSWATTA, ALBERTO VALDES GARCIA
Abstract: A nano composite with superhydrophobic surfaces including a bulk portion and a surface portion having a superhydrophobic pattern, wherein the bulk portion and the surface portion include the same material, and methods of manufacturing of the nano composite.
Abstract: A method for forming a filter rod may include providing a bale of crimped tow band having about 10 denier per filament or greater and about 20,000 total denier or less, the crimped tow band comprising a plurality of cellulose acetate filaments; and placing the crimped tow band in an apparatus so as to form a filter rod.
Type:
Application
Filed:
November 3, 2011
Publication date:
May 9, 2013
Applicant:
Celanese Acetate LLC
Inventors:
Christopher M. Bundren, William S. Sanderson, Paul Busby, Edward J. Clark
Abstract: A nanoparticle composition comprises a ferromagnetic or superparamagnetic metal nanoparticle, and a functionalized carbonaceous coating on a surface of the ferromagnetic or superparamagnetic metal nanoparticle. A magnetorheological fluid comprises the nanoparticle composition.
Type:
Application
Filed:
November 3, 2011
Publication date:
May 9, 2013
Applicant:
BAKER HUGHES INCORPORATED
Inventors:
Oleg A. Mazyar, Soma Chakraborty, Terry R. Bussear, Michael H. Johnson
Abstract: Provided herein are nanoparticulate coated structures and methods of making structures. The structures comprise a support element, a nanoparticulate layer, and a binder disposed on the support element, wherein the binder comprises an alkali silicate or borate. In addition, methods of making the structures and uses of the described structures are described herein.
Type:
Application
Filed:
November 5, 2012
Publication date:
May 9, 2013
Inventors:
Dana Craig Bookbinder, Adam James Ellison, Umamaheswari Janakiraman, Wageesha Senaratne
Abstract: An interconnect structure and method for fabricating the interconnect structure having enhanced performance and reliability, by utilizing a graphene-based barrier metal layer to block oxygen intrusion from a dielectric layer into the interconnect structure and block copper diffusion from the interconnect structure into the dielectric layer, are disclosed. At least one opening is formed in a dielectric layer. A graphene-based barrier metal layer disposed on the dielectric layer is formed. A seed layer disposed on the graphene-based barrier metal layer is formed. An electroplated copper layer disposed on the seed layer is formed. A planarized surface is formed, wherein a portion of the graphene-based barrier metal layer, the seed layer, and the electroplated copper layer are removed. In addition, a capping layer disposed on the planarized surface is formed.
Type:
Application
Filed:
November 8, 2011
Publication date:
May 9, 2013
Applicant:
INTERNATIONAL BUSINESS MACHINES CORPORATION
Inventors:
Junjing Bao, Shaoning Yao, Xuesong Li, Samuel S. S. Choi
Abstract: Methods of producing layers of patterned graphene with smooth edges are provided. The methods comprise the steps of fabricating a layer of crystalline graphene on a surface, wherein the layer of crystalline graphene has a crystallographically disordered edge, and decreasing the crystallographic disorder of the edge of the layer of crystalline graphene by heating the layer of crystalline graphene on the surface at an elevated temperature in a catalytic environment comprising carbon-containing molecules.
Type:
Application
Filed:
October 27, 2011
Publication date:
May 2, 2013
Inventors:
Michael S. Arnold, Padma Gopalan, Nathaniel S. Safron, Myungwoong Kim
Abstract: Disclosed is a method for producing graphene functionalized at its edge positions of graphite. Organic material having one or more functional groups is reacted with graphite in reaction medium comprising methanesulfonic acid and phosphorus pentoxide, or in reaction medium comprising trifluoromethanesulfonic acid, to produce graphene having organic material fuctionalized at edges. And then, high purity and large scaled graphene and film can be obtained by dispersing, centrifugal separating the functionalized graphene in a solvent and reducing, in particular heat treating the graphene. According to the present invention graphene can be produced inexpensively in a large amount with a minimum loss of graphite.
Type:
Application
Filed:
February 24, 2012
Publication date:
May 2, 2013
Inventors:
Jong Beom Baek, Eun Kyoung Choi, In Yup Jeon, Seo Yoon Bae
Abstract: A photodetector includes a waveguide on a substrate, and a photodetection portion connected to the waveguide. The photodetection portion includes a first semiconductor layer, graphene on the semiconductor layer, and a second semiconductor layer on the graphene. A first electrode and a second electrode separated from the first ridge portion and electrically connected to the graphene.
Abstract: In one aspect, the present invention relates to a layered structure usable in a strain sensor. In one embodiment, the layered structure has a substrate with a first surface and an opposite, second surface defining a body portion therebetween; and a film of carbon nanotubes deposited on the first surface of the substrate, wherein the film of carbon nanotubes is conductive and characterized with an electrical resistance. In one embodiment, the carbon nanotubes are aligned in a preferential direction. In one embodiment, the carbon nanotubes are formed in a yarn such that any mechanical stress increases their electrical response. In one embodiment, the carbon nanotubes are incorporated into a polymeric scaffold that is attached to the surface of the substrate. In one embodiment, the surfaces of the carbon nanotubes are functionalized such that its electrical conductivity is increased.
Type:
Application
Filed:
October 29, 2012
Publication date:
May 2, 2013
Applicant:
BOARD OF TRUSTEES OF THE UNIVERSITY OF ARKANSAS
Inventor:
Board of Trustees of the University of Arkansas
Abstract: There are provided a composite including a metal component supported on graphene, a preparing method of the same, and uses of the same. The composite may be used for removing a contaminant.
Abstract: A microcavity-controlled two-dimensional carbon lattice structure device selectively modifies to reflect or to transmit, or emits, or absorbs, electromagnetic radiation depending on the wavelength of the electromagnetic radiation. The microcavity-controlled two-dimensional carbon lattice structure device employs a graphene layer or at least one carbon nanotube located within an optical center of a microcavity defined by a pair of partial mirrors that partially reflect electromagnetic radiation. The spacing between the mirror determines the efficiency of elastic and inelastic scattering of electromagnetic radiation inside the microcavity, and hence, determines a resonance wavelength of electronic radiation that is coupled to the microcavity. The resonance wavelength is tunable by selecting the dimensional and material parameters of the microcavity. The process for manufacturing this device is compatible with standard complementary metal oxide semiconductor (CMOS) manufacturing processes.
Type:
Application
Filed:
October 31, 2011
Publication date:
May 2, 2013
Applicants:
International Business Machines Corporation, Karlsruher Institut fuer Technologie
Inventors:
Phaedon Avouris, Mathias B. Steiner, Michael Engel, Ralph Krupke, Andrea C. Ferrari, Antonio Lombardo
Abstract: Transistor devices having a self-aligned gate structure on transparent substrates and techniques for fabrication thereof are provided. In one aspect, a method of fabricating a transistor device includes the following steps. A channel material is formed on a transparent substrate. Source and drain electrodes are formed in contact with the channel material. A dielectric layer is deposited on the channel material. A photoresist is deposited on the dielectric layer and developed using UV light exposure through the transparent substrate. A gate metal(s) is deposited on the exposed portions of the dielectric layer and the undeveloped portions of the photoresist. The undeveloped portions of the photoresist are removed along with portions of the gate metal over the source and drain regions to form a gate of the device on the dielectric layer over the channel material which is self-aligned to the source and drain electrodes.
Type:
Application
Filed:
November 1, 2011
Publication date:
May 2, 2013
Applicant:
International Business Machines Corporation
Inventors:
Wilfried Ernst-August Haensch, Zihong Liu
Abstract: Systems for batteries or galvanic cells are disclosed. The system comprises a mixing chamber. The system further comprises a first reservoir, in fluid communication with a mixing chamber, the first reservoir configured to store a concentrated electrolyte. Additionally the system comprises a pump configured to pump a fluid into the mixing chamber. The system further comprises an electrochemical energy cell in fluid communication with the mixing chamber wherein the mixing chamber is configured to receive the fluid and concentrated electrolyte and mix the fluid and the concentrated electrolyte to produce a diluted electrolyte. Finally the system comprises the electrochemical energy cell configured to receive the diluted electrolyte, use the received diluted electrolyte for an electrochemical reaction and remove the used electrolyte solution from the cell.
Abstract: A photoactive component includes organic layers, including a single, tandem or multiple cell with two electrodes and, between the electrodes, a photoactive acceptor-donor layer system that includes at least three absorber materials. At least two absorber materials are donors or acceptors. One of the two absorber materials is configured as donors or acceptors absorbing at greater wavelengths than the other absorber material and one of the two absorber materials have a lower Stokes shift and/or a lower absorption width than the other absorber material.
Type:
Application
Filed:
May 4, 2011
Publication date:
May 2, 2013
Applicant:
Heliatek GmbH
Inventors:
Martin Pfeiffer, Christian Uhrich, Bert Maennig
Abstract: Provided are a method of manufacturing graphene, graphene manufactured by the method, a conductive thin film including the graphene, a transparent electrode comprising the graphene, and a radiating or heating device comprising the graphene. The method includes: preparing a graphene member including a base member, a hydrophilic oxide layer formed on the base member, a hydrophobic metal catalyst layer formed on the oxide layer, and graphene grown on the metal catalyst layer; applying water to the graphene member; separating the metal catalyst layer from the oxide layer; and removing the metal catalyst layer using an etching process.
Type:
Grant
Filed:
September 21, 2010
Date of Patent:
April 30, 2013
Assignees:
Samsung Techwin Co., Ltd., Sungkyunkwan University Foundation for Corporate
Inventors:
Young-il Song, Jong-hyun Ahn, Young-bin Lee, Byung-hee Hong
Abstract: A shielded cable component and method that comprises a main body that has an outer surface and the main body is formed of a dielectric material and a coating that is applied to the outer surface of the main body where the coating includes a conductive or semi-conductive shielding material. An outer layer is disposed on the coating that completely encapsulates the coating and the main body and the outer layer is formed of a dielectric material.
Abstract: A memory element is provided that includes a ferromagnetic (FM) layer having one or more ferromagnetic materials. One or more first molecule layers are positioned on the FM layer where charge transfer and interface chemistry between the one or more first molecule layers and FM layer induces a magnetic moment in the one or more first molecule layers. The magnetic moment is stored in the one or more first molecule layers acting as bit information that is retained or written into the one or more first molecule layers. One or more spin-filter layers are positioned on the one or more first molecule layers. The one or more spin-filter layers are positioned on the one or more spin-filter layers to form a physical or a chemical ?-dimer layer structure.
Type:
Application
Filed:
March 19, 2012
Publication date:
April 25, 2013
Applicant:
MASSACHUSETTS INSTITUTE OF TECHNOLOGY
Inventors:
Karthik Venkataraman, Jagadeesh S. Moodera
Abstract: A dispersion includes a carbonaceous nanoparticle, a dispersant including a graft polymer having a poly(alkylene glycol) side chain, and a polar solvent. An article coated with the dispersion and a method of making the dispersion are disclosed.
Type:
Application
Filed:
April 13, 2012
Publication date:
April 25, 2013
Applicant:
BAKER HUGHES INCORPORATED
Inventors:
Hendrik John, Claus-Peter Klages, Sven Hartwig
Abstract: The invention generally related to a method for preparing a layer of graphene directly on the surface of a semiconductor substrate. The method includes forming a carbon-containing layer on a front surface of a semiconductor substrate and depositing a metal film on the carbon layer. A thermal cycle degrades the carbon-containing layer, which forms graphene directly upon the semiconductor substrate upon cooling. In some embodiments, the carbon source is a carbon-containing gas, and the thermal cycle causes diffusion of carbon atoms into the metal film, which, upon cooling, segregate and precipitate into a layer of graphene directly on the semiconductor substrate.
Type:
Application
Filed:
October 16, 2012
Publication date:
April 25, 2013
Applicants:
KANSAS STATE UNIVERSITY RESEARCH FOUNDATION, MEMC ELECTRONIC MATERIALS, INC.
Inventors:
MEMC Electronic Materials, Inc., Kansas State University Research Foundation
Abstract: Disclosed herein is a method of manufacturing a conductive substrate, the method including: a first electrode applying operation of applying first electrodes on a substrate; a first electrode forming operation of forming the first electrodes of fine lines by partly removing the first electrodes; and a second electrode forming operation of forming second electrodes on the substrate from which the first electrodes are removed, thereby enhancing reliability in a whole product including the conductive substrate.
Abstract: Nanocomposite adsorbent materials and methods for their preparation and use are described. As an example, a polyaniline-graphite nanoplatelet nanocomposite may be used to adsorb carbon dioxide.
Abstract: A hybrid material including graphene and iron oxide, a method of manufacturing the same, and an apparatus for treating waste water using the same are provided. A hybrid material having magnetic properties and high dispersibility and including graphene and iron oxide may be effectively used for removing a heavy metal in waste water.
Type:
Application
Filed:
October 23, 2011
Publication date:
April 25, 2013
Applicant:
POSTECH ACADEMY-INDUSTRY FOUNDATION
Inventors:
Kwang Soo KIM, Jung Woo Lee, Chandra Vimlesh, In Chul Hwang, Young Chun
Abstract: There is provided a method for forming a graphene layer. The method includes forming an article that comprises a carbon-containing self-assembled monolayer (SAM). A layer of nickel is deposited on the SAM. The article is heated in a reducing atmosphere and coolded. The heating and cooling steps are carried out so as to convert the SAM to a graphene layer.
Abstract: An optical modulator includes a first graphene and a second graphene on an upper surface of a semiconductor layer, a first electrode on the first graphene, and a second electrode on the second graphene. Respective side surfaces of the first graphene and the second graphene are separated from each other. A first ridge portion of the semiconductor layer and a second ridge portion on the second graphene constitute an optical waveguide, and the first and second graphenes are on a center portion of the optical waveguide in a vertical direction to the semiconductor.