Utilizing Electromagnetic Wave Energy During Synthesis (e.g., Visible Light, Etc.) Patents (Class 205/340)
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Publication number: 20120247969Abstract: The invention relates to various embodiments of an environmentally beneficial method for reducing carbon dioxide. The methods in accordance with the invention include electrochemically or photoelectrochemically reducing the carbon dioxide in a divided electrochemical cell that includes an anode, e.g., an inert metal counterelectrode, in one cell compartment and a metal or p-type semiconductor cathode electrode in another cell compartment that also contains an aqueous solution of an electrolyte and a catalyst of one or more substituted or unsubstituted aromatic amines to produce therein a reduced organic product.Type: ApplicationFiled: May 15, 2012Publication date: October 4, 2012Applicant: PRINCETON UNIVERSITYInventors: Andrew B. Bocarsly, Emily Barton Cole
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Patent number: 8268138Abstract: The present invention relates to a system comprising a heat source to provide heat at the desired temperature and energy field (e.g. a solar concentrator); an electron source configured and operable to emit electrons; an electric field generator generating an electric field adapted to supply energy sufficient to dissociate gas molecules; and a reaction gas chamber configured and operable to cause interaction between the electrons with the molecules, such that the electrons dissociate the molecules to product compound and ions via dissociative electrons attachment (DEA) within the chamber.Type: GrantFiled: January 20, 2011Date of Patent: September 18, 2012Assignee: Yeda Research and Development Company Ltd.Inventors: Jacob Karni, Gidon Ferdiman, Yury Alioshin
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Publication number: 20120228146Abstract: A device for reducing carbon dioxide includes a cathode chamber including a cathode electrolyte solution and a cathode electrode, an anode chamber including an anode electrolyte solution and an anode electrode, and a solid electrolyte membrane. The anode electrode includes a nitride semiconductor region on which a metal layer is formed. The metal layer includes at least one of nickel and titanium. A method for reducing carbon dioxide by using a device for reducing carbon dioxide includes steps of providing carbon dioxide into the cathode solution, and irradiating at least part of the nitride semiconductor region and the metal layer with a light having a wavelength of 250 nanometers to 400 nanometers, thereby reducing the carbon dioxide contained in the cathode electrolyte solution.Type: ApplicationFiled: April 23, 2012Publication date: September 13, 2012Applicant: PANASONIC CORPORATIONInventors: Masahiro DEGUCHI, Satoshi YOTSUHASHI, Yuka YAMADA
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Patent number: 8247318Abstract: The present invention provides a method of providing a desired catalyst electron energy level. The method includes providing a donor material quantum confinement structure (QCS) having a first Fermi level, and providing an acceptor QCS material having a second Fermi level, where the first Fermi level is higher than the second Fermi level. According to the method the acceptor is disposed proximal to the donor to alter an electronic structure of the donor and the acceptor materials to provide the desired catalyst electron energy level.Type: GrantFiled: January 21, 2010Date of Patent: August 21, 2012Assignees: The Board of Trustees of the Leland Stanford Junior University, Honda Motor Co., LtdInventors: Timothy P. Holme, Friedrich B. Prinz
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Publication number: 20120205251Abstract: A method for generating hydrogen is disclosed. The method includes substantially submersing nanowires having metallic nanoparticles into water, exposing the water submerged nanowires to light, and collecting hydrogen gas produced by photolysis from the exposure to light.Type: ApplicationFiled: October 21, 2010Publication date: August 16, 2012Applicant: The Board of Regents for Oklahoma State UniversityInventor: Ali Kaan Kalkan
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Patent number: 8236146Abstract: A photoelectrochemical cell (100) includes: a semiconductor electrode (120) including a conductor (121) and an n-type semiconductor layer (122); a counter electrode (130) connected electrically to the conductor (121); an electrolyte (140) in contact with the surfaces of the n-type semiconductor layer (122) and the counter electrode (130); and a container (110) accommodating the semiconductor electrode (120), the counter electrode (130) and the electrolyte (140). The photoelectrochemical cell (100) generates hydrogen by irradiation of the n-type semiconductor layer (122) with light.Type: GrantFiled: October 29, 2009Date of Patent: August 7, 2012Assignee: Panasonic CorporationInventors: Takaiki Nomura, Takahiro Suzuki, Kenichi Tokuhiro, Tomohiro Kuroha, Noboru Taniguchi, Kazuhito Hatoh, Shuzo Tokumitsu
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Publication number: 20120186982Abstract: The present invention relates to a modified tungsten oxide having an atomic concentration of 0.5 to 7.0%, preferably from 2.0 to 5.0%, of nitrogen atoms in lattice position, with respect to the total number of atoms of the oxide, having a surface morphology, detectable by means of a scanning electron microscope, characterized by nanostructures in the form of vermiform or branched open swellings, preferably having a length ranging from 200 to 2,000 nm, and a width ranging from 50 to 300 nm, having an appearance similar to Rice Krispies. The present invention also relates to a process for the preparation of the above oxide by the anodization of metallic tungsten, and also a photoanode comprising the above oxide.Type: ApplicationFiled: July 8, 2010Publication date: July 26, 2012Applicant: ENI S.p.AInventors: Laura Meda, Alessandra Tacca, Carlo Alberto Bignozzi, Stefano Caramori, Vito Cristino
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Patent number: 8227127Abstract: A carbon dioxide negative method of manufacturing renewable hydrogen and trapping carbon dioxide from the air or gas streams is described. Direct current renewable electricity is provided to a water electrolysis apparatus with sufficient voltage to generate hydrogen and hydroxide ions at the cathode, and protons and oxygen at the anode. These products are separated and sequestered and the base is used to trap carbon dioxide from the air or gas streams as bicarbonate or carbonate salts. These carbonate salts, hydrogen, and trapped carbon dioxide in turn can be combined in a variety of chemical and electrochemical processes to create valuable carbon-based materials made from atmospheric carbon dioxide. The net effect of all processes is the generation of renewable hydrogen from water and a reduction of carbon dioxide in the atmosphere or in gas destined to enter the atmosphere.Type: GrantFiled: April 3, 2008Date of Patent: July 24, 2012Assignee: New Sky Energy, Inc.Inventors: C. Deane Little, Timothy C. Heffernan, Joseph V. Kosmoski, C. Gordon Little
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Patent number: 8216436Abstract: The embodiments disclosed herein relate to hetero-nanostructures for efficient solar energy conversions, and more particularly to the fabrication of titanium dioxide hetero-nanostructures and methods of using same for water splitting. In an embodiment, a hetero-nanostructure includes a plurality of connected and spaced-apart nanobeams linked together at an about 90-degree angle, the plurality of nanobeams including a conductive silicide core having an n-type photoactive titanium dioxide shell.Type: GrantFiled: August 25, 2009Date of Patent: July 10, 2012Assignee: The Trustees of Boston CollegeInventors: Dunwei Wang, Yongjing Lin
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Publication number: 20120168318Abstract: A gas generating device for generating an oxygen gas and/or a hydrogen gas from an electrolytic solution containing water, including an anode electrode, a cathode electrode, a plurality of through holes and a gas containing unit. The anode electrode (photocatalyst supporting electrode) has a photocatalyst-containing layer containing a photocatalyst producing an oxygen gas from the electrolytic solution by a photocatalytic reaction. The cathode electrode produces a hydrogen gas from electrons and hydrogen ions that are generated in the electrolytic solution by the photocatalytic reaction at the photocatalyst-containing layer. The through holes are formed on at least one of the anode electrode and the cathode electrode, and the through holes allow the produced oxygen gas or hydrogen gas to pass therethrough, but do not allow the electrolytic solution to pass therethrough. The gas containing unit holds the oxygen gas or hydrogen gas that has passed through the through holes.Type: ApplicationFiled: September 8, 2010Publication date: July 5, 2012Applicant: MITSUI CHEMICALS, INC.Inventors: Keiji Ueno, Mitsuru Sadamoto, Hiroko Wachi, Hiroshi Maekawa
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Publication number: 20120132535Abstract: A method of and apparatus for efficient on-demand production of H2 and O2 from water and heat using environmentally safe metals are disclosed. In one aspect, the apparatus for hydrogen generation through water-decomposition reaction includes a main reactor, an oxidizer reactor, and a computer-control system. The computer system is configured to control each of the components of the hydrogen gas production system for stable hydrogen-gas production.Type: ApplicationFiled: February 3, 2012Publication date: May 31, 2012Applicant: MARINE POWER PRODUCTS INCORPORATEDInventor: Jeff Carey
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Publication number: 20120125780Abstract: A hydrogen generation system has a transparent cover and has a photovoltaic panel in the vessel. The photovoltaic panel generates the electricity for powering the electrolysis process. The photovoltaic panel may be submerged in the electrolyte solution, which acts to concentrate light rays onto the panel. The photovoltaic panel may have a protective coating that both protects the photovoltaic structures, as well as increases conversion efficiency. Other structures, such as the cover, may be configured to further concentrate light rays onto the panel. In some examples, oxygen gas may also be collected, stored, and used. The generation system may also use an external electricity source for powering the electrolysis process when insufficient electricity is produced by the internal photovoltaic cell.Type: ApplicationFiled: December 5, 2010Publication date: May 24, 2012Inventors: Thomas W. Oakes, Robert E. Oakes
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Publication number: 20120125781Abstract: The invention provides new methods and compositions for synthesizing hydrogen fuel using simple and inexpensive materials.Type: ApplicationFiled: December 10, 2009Publication date: May 24, 2012Inventors: Jin Zhong Zhang, Abraham Wilcott, Jennifer Hensel, Tzarara Lopez-Luke, Yat Li
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Publication number: 20120103825Abstract: Exemplary embodiments are disclosed of anti-reflective nanoporous silicon for efficient hydrogen production by photoelectrolysis of water. A nanoporous black Si is disclosed as an efficient photocathode for H2 production from water splitting half-reaction.Type: ApplicationFiled: October 28, 2011Publication date: May 3, 2012Applicant: ALLIANCE FOR SUSTAINABLE ENERGY, LLCInventors: Jihun OH, Howard Branz
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Patent number: 8105474Abstract: An electrochemical device having a proton exchange membrane disposed between an anode electrode and a cathode electrode, an anode plate adjacent the anode electrode and forming at least one anode flow channel, and a cathode plate adjacent the cathode electrode and forming at least one cathode flow channel, in which a bio-oil is introduced into the at least one anode flow channel, and a carbohydrate is introduced into the at least one cathode flow channel. The bio-oil is oxidized at the anode, producing the biofuel, and protons from the anode electrode migrate to the cathode electrode and are reduced to hydrogen and/or reacted with the carbohydrate at the cathode, producing hydrogen and carbon-hydrogen biofuel.Type: GrantFiled: August 18, 2009Date of Patent: January 31, 2012Assignee: Gas Technology InstituteInventor: Qinbai Fan
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Patent number: 8088193Abstract: A method for making nanoparticles includes the steps of dipping a metal element in a solution that contains metallic ions or ions with a metal, wherein the metal element has a lower electronegativity or redox potential than that of the metal in the ions, and rubbing the metal element to make nanoparticles. Another method for making nanoparticles includes the steps of dipping a metal element in a solution that contains metallic ions or ions with a metal, wherein the metal element has a lower electronegativity or redox potential than that of the metal in the ions, and applying sonic energy to at least one of the metal element and solution. A further method for making copper nanoparticles includes the step of adding ascorbic acid to a copper salt solution.Type: GrantFiled: December 17, 2007Date of Patent: January 3, 2012Inventors: Taofang Zeng, Chunwei Wu
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Patent number: 8083904Abstract: A device for colliding at least one H+ ion and at least one electron may comprise at least one electromagnetic field generator for extracting the at least one H+ ion from a hydrogen-containing compound and transferring the at least one H+ ion toward a cathode. The device also may comprise at least one non-conductive material positioned between at least a portion of the hydrogen-containing compound and the cathode so that the colliding of the at least one H+ ion and the at least one electron occurs within the non-conductive material.Type: GrantFiled: June 15, 2005Date of Patent: December 27, 2011Assignee: Ceram HydInventor: Arash Mofakhami
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Publication number: 20110308962Abstract: A system includes an ionic exchange conduit through which a flow of photosynthetic biomass is drawn capturing an electrical charge which is used to alternately power a photonic activated reservoir housing a living photosynthetic biomass suspended in a flowing liquid medium which self generates an electrical charge as it migrates towards and through a cathode separated from an anode by a membrane. Upon electrical transfer through the circuit an electrolysis process begins and releases hydrogen and oxygen into enclosed atmosphere chambers where these separated gases can be captured for use in a fuel cell.Type: ApplicationFiled: June 16, 2011Publication date: December 22, 2011Inventors: Nicholas Eckelberry, Michael Green
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Publication number: 20110303548Abstract: The invention relates to a method for the photoelectrochemical production of hydrogen and oxygen and for the simultaneously or separately conducted photoelectrical/photovoltaic production of electricity, characterized in that water is brought into contact with silicides, while applying light at the same time, or the contact with water can be foregone if electricity is produced exclusively. The invention enables the production of hydrogen and oxygen in a simple way directly from water, wherein the use of UV light and cost-intensive catalysts can be foregone.Type: ApplicationFiled: October 14, 2009Publication date: December 15, 2011Applicant: H2 SOLAR GMBHInventors: Martin Demuth, Klaus Kerpen, Andrij Kuklya
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Patent number: 8048274Abstract: The invention relates to novel methods for affecting, controlling and/or directing various reactions and/or reaction pathways or systems by exposing one or more components in a holoreaction system to at least one spectral energy pattern. In a first aspect of the invention, at least one spectral energy pattern can be applied to a reaction system. In a second aspect of the invention, at least one spectral energy conditioning pattern can be applied to a conditioning reaction system. The spectral energy conditioning pattern can, for example, be applied at a separate location from the reaction vessel (e.g., in a conditioning reaction vessel) or can be applied in (or to) the reaction vessel, but prior to other reaction system participants being introduced into the reaction vessel.Type: GrantFiled: March 11, 2003Date of Patent: November 1, 2011Assignee: GR Intellectual Reserve, LLCInventors: Juliana H. J. Brooks, Mark G. Mortenson, Bentley J. Blum
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Publication number: 20110220515Abstract: A water-splitting apparatus and method generating hydrogen and oxygen at separate electrodes have a structure enabling a photo catalytic reaction to be efficiently performed. The apparatus includes a photolysis element having an N-type water-splitting electrode surface and a P-type water-splitting electrode surface at the opposite side surface to the N-type water-splitting electrode surface, a hydrogen generating cell holding the N-type water-splitting electrode surface and collecting the hydrogen generated at that water-splitting electrode surface, and an oxygen generating cell holding the P-type water-splitting electrode surface, collecting the oxygen generated at that water-splitting electrode surface, and adjoining the hydrogen generating cell across the photolysis element. The photolysis element has through holes enabling circulation of water between the hydrogen and oxygen generating cells.Type: ApplicationFiled: March 9, 2010Publication date: September 15, 2011Applicant: TOYOTA JIDOSHA KABUSHIKI KAISHAInventors: Haruyuki NAKANISHI, Hidekazu ARIKAWA
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Publication number: 20110214995Abstract: Disclosed is a method for making carrier-free radioactive isotopic gallium-67. Stable isotopic zinc-68 is turned into zinc-68 solid target by disposition or electroplating. Then, the zinc-68 solid target is subjected to a proton beam. A cyclotron is used to provide irradiation from 15 to 40 MeV. After the irradiation, the zinc-68 solid target is dissolved in concentrated acid and turned into solution that contains zinc-65, zinc-68, gallium-67 and gallium-68. High concentrated hydrochloric acid and resin are added into the solution for exchange of ions. Zinc-68 liquid and gallium-67 liquid are filtered and separated from the solution. Thus, pure gallium-67 liquid is produced. With a vaporizer, the gallium-67 liquid is vaporized and turned into radioactive isotopic gallium-67.Type: ApplicationFiled: March 5, 2010Publication date: September 8, 2011Applicant: ATOMIC ENERGY COUNCIL-INSTITUTE OF NUCLEAR ENERGY RESEARCHInventors: Sun-Rong Huang, Ying-Ming Tsai, Jainn-Hsin Lu, Jenn-Tzong Chen, Wuu-Jyh Lin
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Patent number: 7992528Abstract: Titania is a semiconductor and photocatalyst that is also chemically inert. With its bandgap of 3.0, to activate the photocatalytic property of titania requires light of about 390 nm wavelength, which is in the ultra-violet, where sunlight is very low in intensity. A method and devices are disclosed wherein stress is induced and managed in a thin film of titania in order to shift and lower the bandgap energy into the longer wavelengths that are more abundant in sunlight. Applications of this stress-induced bandgap-shifted titania photocatalytic surface include photoelectrolysis for production of hydrogen gas from water, photovoltaics for production of electricity, and photocatalysis for detoxification and disinfection.Type: GrantFiled: January 2, 2009Date of Patent: August 9, 2011Assignee: Nanoptek CorporationInventor: John M. Guerra
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Publication number: 20110174632Abstract: A material surface treatment protocol uses concurrent electrical, vibrational, and photonic stimulation to generate an exothermic reaction and coat the surface of a material, such as palladium. This protocol is performed at or near the boiling point of water within a sealed vessel that prevents the escape of steam and that is lined with silica or a similar glass to increase the silica available to the reaction. The great majority of the applied energy is heat used to elevate the temperature to near the boiling point, while concurrent stimulations provide only about 100 mW of additional energy for the surface treatment.Type: ApplicationFiled: January 15, 2010Publication date: July 21, 2011Inventors: Brian P. Roarty, Carol J. Walker
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Patent number: 7955490Abstract: A process for the production of sodium hydroxide, hydrogen gas and chlorine gas which comprises (1) forming an aqueous solution of sodium chloride, (2) placing the sodium chloride solution in a cell having two compartments separated by a separator, (3) subjecting the cell to a direct electrical current of about 3-24 volts and 0.1-500 K amperes; thereby generating hydrogen gas, chlorine gas and an aqueous sodium hydroxide solution and wherein the electrical current is generated by a solar panel.Type: GrantFiled: October 23, 2008Date of Patent: June 7, 2011Inventors: James Fang, John Fang
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Publication number: 20110127167Abstract: The invention relates to a method of making a nanotubular titania substrate having a titanium dioxide surface comprised of a plurality of vertically oriented titanium dioxide nanotubes containing oxygen vacancies. The method generally comprises the steps of anodizing a titanium metal substrate in an acidified fluoride electrolyte under conditions sufficient to form a titanium oxide surface comprised of self-ordered titanium oxide nanotubes, dispersing gold nanoparticles onto the titanium oxide surface, annealing the titanium oxide surface with the gold nanoparticles thereon in a non-oxidizing atmosphere, and depositing carbon onto the annealed titanium oxide surface. The invention also relates to a hybrid gold/carbon electrode formed by the method.Type: ApplicationFiled: December 13, 2006Publication date: June 2, 2011Applicant: UNIVERSITY OF NEVADA, RENOInventors: Manoranjan Misra, Krishnan Selva Raja, Susanta Kumar Mohapatra, Vishal K. Mahajan
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Patent number: 7909968Abstract: An electrolysis apparatus for water is disclosed. The apparatus comprises an enclosure, a first electrode disposed within the enclosure, a second electrode disposed within the enclosure, and at least one electromagnetic energy radiator disposed within the enclosure. The apparatus further comprises a power source disposed external to the enclosure, where that power source is interconnected with the first electrode such that the first electrode comprises a cathode, and where the power source is interconnected with the second electrode such that the second electrode comprises an anode. The apparatus further comprises at least one oscillator disposed external to the enclosure, where each oscillator is interconnected to a different electromagnetic energy radiator.Type: GrantFiled: November 13, 2006Date of Patent: March 22, 2011Assignee: Advanced R F Design, L.L.C.Inventor: John R. Hallenbeck
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Patent number: 7909979Abstract: The present invention provides a water photolysis system comprising: a casing 1 into which incident sunlight L can enter from the outside and a photolytic layer 5 which is disposed inside the casing 1; wherein the photolytic layer 5 has a light-transmissive porous material 51 and photocatalyst particles 52 supported thereon; a water layer 4 containing water in its liquid state is disposed below the photolytic layer 5 with a first space 6 disposed between the water layer and the photolytic layer; a sealed second space 7 is formed above the photolytic layer 5 in the casing 1; vapor generated from the water layer 4 is introduced into the photolytic layer 5 via the first space 6; and the vapor is decomposed into hydrogen and oxygen by the photocatalyst particles 52, which are excited by the sunlight L.Type: GrantFiled: April 3, 2009Date of Patent: March 22, 2011Assignee: Panasonic CorporationInventors: Yuka Yamada, Masa-aki Suzuki, Nobuyasu Suzuki, Hidehiro Sasaki, Yasunori Morinaga
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Publication number: 20110056841Abstract: Semiconductor nano-sized particles possess unique properties, which make them ideal candidates for applications in solar electrochemical cells to produce chemical energy from solar energy. Coupled nanocrystal photoelectrochemical cells and several applications improve the efficiency of solar to chemical energy conversion.Type: ApplicationFiled: September 9, 2010Publication date: March 10, 2011Applicant: PIXELLIGENT TECHNOLOGIES, LLCInventors: Brian L. WEHRENBERG, Zehra Serpil GONEN WILLIAMS, Gregory D. COOPER, Zhiyun CHEN
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Publication number: 20110042227Abstract: The present invention provides ruthenium or osmium complexes and their uses as a catalyst for catalytic water oxidation. Another aspect of the invention provides an electrode and photo-electrochemical cells for electrolysis of water molecules.Type: ApplicationFiled: August 24, 2010Publication date: February 24, 2011Inventors: Javier Jesus Concepcion Corbea, Zuofeng Chen, Jonah Wesley Jurss, Joseph L. Templeton, Paul Hoertz, Thomas J. Meyer
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Patent number: 7892407Abstract: A method for optimizing the efficiency of a solar powered hydrogen generation system is disclosed. The system utilizes photovoltaic modules and a proton exchange membrane electrolyzer to split water into hydrogen and oxygen with an efficiency greater than 12%. This high efficiency for the solar powered electrolysis of water was obtained by matching the voltage generated by photovoltaic modules to the operating voltage of the electrolyzer. Optimizing PV-electrolysis systems makes solar generated hydrogen less expensive and more practical for use as an environmentally clean and renewable fuel.Type: GrantFiled: June 14, 2005Date of Patent: February 22, 2011Assignee: GM Global Technology Operations LLCInventors: Thomas L. Gibson, Nelson A. Kelly
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Publication number: 20110027848Abstract: A method that produces coupled radical products from biomass. The method involves obtaining a lipid or carboxylic acid material from the biomass. This material may be a carboxylic acid, an ester of a carboxylic acid, a triglyceride of a carboxylic acid, or a metal salt of a carboxylic acid, or any other fatty acid derivative. This lipid material or carboxylic acid material is converted into an alkali metal salt. The alkali metal salt is then used in an anolyte as part of an electrolytic cell. The electrolytic cell may include an alkali ion conducting membrane (such as a NaSICON membrane). When the cell is operated, the alkali metal salt of the carboxylic acid decarboxylates and forms radicals. Such radicals are then bonded to other radicals, thereby producing a coupled radical product such as a hydrocarbon. The produced hydrocarbon may be, for example, saturated, unsaturated, branched, or unbranched, depending upon the starting material.Type: ApplicationFiled: July 21, 2010Publication date: February 3, 2011Inventors: Mukund Karanjikar, Sai Bhavaraju, Ashok V. Joshi, Pallavi Chitta, David Joel Hunt
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Publication number: 20110003698Abstract: An electronic system for selectively detecting and identifying a plurality of chemical species, which comprises an array of nanostructure sensing devices, is disclosed. Within the array, there are at least two different selectivities for sensing among the nanostructure sensing devices. Methods for fabricating the electronic system are also disclosed. The methods involve modifying nanostructures within the devices to have different selectivity for sensing chemical species. Modification can involve chemical, electrochemical, and self-limiting point defect reactions. Reactants for these reactions can be supplied using a bath method or a chemical jet method. Methods for using the arrays of nanostructure sensing devices to detect and identify a plurality of chemical species are also provided.Type: ApplicationFiled: November 9, 2007Publication date: January 6, 2011Applicant: NANOMIX, INC.Inventors: Jean-Christophe P. Gabriel, Philip G. Collins, Keith Bradley, George Gruner
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Patent number: 7820022Abstract: A photoelectrochemical cell may include a cell housing defining an interior volume with a window affixed to the cell housing for allowing the passage of light into the interior volume of the cell. A polymeric film may be affixed within the interior volume defining an anterior compartment and a posterior compartment within the cell housing. A plurality of semiconductor particles embedded continuously within a through thickness of the polymeric film so that a first respective surface area of the plurality of semiconductor particles is exposed to the anterior portion of the cell and a second respective surface area of the plurality of semiconductor particles is exposed to the posterior portion of the cell. The membrane may be immersed within an electrolyte so that incident radiation on the semiconductor particles causes oxidation and reduction to occur within the cell to produce gaseous hydrogen and oxygen.Type: GrantFiled: November 28, 2005Date of Patent: October 26, 2010Assignee: General Electric CompanyInventors: Thomas Francis McNulty, Lifeng Zhang
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Publication number: 20100258446Abstract: A system including nanostructure arrays for converting carbon dioxide to an organic compound, e.g., methanol, which does so, for example, without any external electric energy. In one embodiment, the system for converting carbon dioxide to an organic compound includes an array of nanotubes, which include nanoparticles of an electron mediator, e.g. palladium, dispersed on a surface of the nanotubes, and an electrically conductive fluid. The array of nanotubes is at least partially immersed in the electrically conductive fluid. The system further includes a light source that irradiates the array of nanotubes, a source of carbon dioxide, and an inlet for delivering the carbon dioxide to the electrically conductive fluid whereat at least a portion of the carbon dioxide is converted to a different organic compound, such as methanol, via contact with an irradiated array of nanotubes. In one example, the array is an ordered array of titania nanotubes.Type: ApplicationFiled: April 5, 2010Publication date: October 14, 2010Applicant: Board of Regents of the Nevada System of Higher Education, on behalf of the University of NevadaInventors: Susanta Mohapatra, Manoranjan Misra
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Publication number: 20100224502Abstract: A method of and apparatus for efficient on-demand production of H2 and O2 from water and heat using environmentally safe metals are disclosed. In one aspect, the apparatus for the hydrogen generation through water decomposition reaction includes a main reactor, an oxidizer reactor, and a computer controlling system. The main reactor contains a hydrogen generating substance, such as aluminium hydroxide. In some embodiments, the main reactor includes hydroxide shuttles, such as Cu ion and Ag ion. In another aspect, the system for hydrogen generation through water decomposition includes the steps of (1) REDOX reaction, (2) pre-generation reaction, (3) generation reaction, (4) regeneration reaction, (5) second hydrogen reaction, and (6) oxygen reaction.Type: ApplicationFiled: February 16, 2010Publication date: September 9, 2010Applicant: MARINE POWER PRODUCTS CORPORATIONInventor: Jeff Carey
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Publication number: 20100200418Abstract: A process for the production of energetically rich compounds comprising: using externally supplied thermal energy to heat an electrolyzable compound to a temperature greater than the ambient temperature; generating electricity from a solar electrical photovoltaic component; subjecting the heated electrolyzable compound to electrolysis with the solar generated electricity to generate an energetically rich electrolytic product.Type: ApplicationFiled: February 12, 2010Publication date: August 12, 2010Applicant: THE GEORGE WASHINGTON UNIVERSITYInventor: Stuart Licht
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Publication number: 20100187123Abstract: The invention relates to various embodiments of an environmentally beneficial method for reducing carbon dioxide. The methods in accordance with the invention include electrochemically or photoelectrochemically reducing the carbon dioxide in a divided electrochemical cell that includes an anode, e.g., an inert metal counterelectrode, in one cell compartment and a metal or p-type semiconductor cathode electrode in another cell compartment that also contains an aqueous solution of an electrolyte and a catalyst of one or more substituted or unsubstituted aromatic amines to produce therein a reduced organic product.Type: ApplicationFiled: January 29, 2010Publication date: July 29, 2010Inventors: Andrew B. Bocarsly, Emily Barton Cole
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Publication number: 20100143811Abstract: A catalyst for the photo-electrolysis of water molecules, the catalyst including catalytic groups comprising tetra-manganese-oxo clusters. A plurality of the catalytic groups are supported on a conductive support substrate capable of incorporating water molecules. At least some of the catalytic groups, supported by the support substrate, are able to catalytically interact with water molecules incorporated into the support substrate. The catalyst can be used as part of photo-electrochemical cell for the generation of electrical energy.Type: ApplicationFiled: March 20, 2008Publication date: June 10, 2010Inventors: Robin Brimblecombe, Leone Spiccia, Charles Gerard Dismukes, Gerry F. Swiegers
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Publication number: 20100133110Abstract: Catalytic materials, photoanodes, and systems for electrolysis and/or formation of water are provided which can be used for energy storage, particularly in the area of solar energy conversion, and/or production of oxygen and/or hydrogen. Compositions and methods for forming photoanodes and other devices are also provided.Type: ApplicationFiled: October 8, 2009Publication date: June 3, 2010Applicants: Massachusetts Institute of Technology, Arizona Board of Regents, Sun Catalytix CorporationInventors: Daniel G. Nocera, Matthew W. Kanan, Thomas A. Moore, Yogesh Surendranath, Steven Y. Reece, Arthur J. Esswein
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Patent number: 7727373Abstract: An apparatus and a method for producing, capturing and storing hydrogen in a hydrogen absorption rod. The hydrogen absorption rod comprises a zeolite core material surrounding a conductive rod, wherein the zeolite core material is suitable for releasing captured hydrogen to a hydrogen fuel cell. More specifically, the apparatus and method utilize solar-generated electric current to separate hydrogen from water, whereupon the released hydrogen is captured in the hydrogen absorption rod. The hydrogen absorption rod is configured to allow for ease and safety of transportation, storage, and use of hydrogen gas in hydrogen fuel cells.Type: GrantFiled: October 4, 2006Date of Patent: June 1, 2010Inventor: Lawrence Curtin
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Publication number: 20100000874Abstract: Products from a solar assisted reverse-water-gas-shift reaction (RWGS) are used to create a liquid hydrocarbon fuel. Heliostats focus solar energy to heat carbon dioxide gas. A water splitter splits water into hydrogen molecules and oxygen molecules via the addition of the solar energy also directed from either the same array of heliostats via a beam splitter off a common receiving tower redirecting a portion of the electromagnetic spectrum, a heliostat field dedicated for the water splitter, or from its own parabolic trough. A chemical reactor mixes heated carbon dioxide gas with all or just a portion of the hydrogen molecules from the water splitter in a RWGS reaction to produce resultant carbon monoxide. A synthesis reactor uses any unconsumed hydrogen molecules and the resultant stabilized carbon monoxide molecules from the RWGS reaction in the hydrocarbon fuel synthesis process to create a liquid hydrocarbon fuel.Type: ApplicationFiled: September 25, 2008Publication date: January 7, 2010Applicant: Sundrop Fuels, Inc.Inventors: Brian L. Hinman, John Henry Stevens, Peter Le Lievre
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Publication number: 20090242420Abstract: An aerospace platform includes a structure having a cavity and a light-transmissive portion that exposes the cavity to sunlight. The aerospace platform further includes a fluid heating system. The fluid heating system includes a fluid-carrying, thermally absorptive structure within the cavity, and a solar collector for collecting light transmitted through the light-transmissive portion and focusing the collected light onto the absorptive structure. The thermally absorptive structure has a high surface absorptivity that retains thermal energy when exposed to solar irradiance and heats fluid contained therein.Type: ApplicationFiled: March 28, 2008Publication date: October 1, 2009Applicant: THE BOEING COMPANYInventors: Shailesh Atreya, Michael F. Stoia, Tina R. Stoia, Russell K. Jones
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Publication number: 20090183994Abstract: The invention relates to a method of making a nanotubular titania substrate having a titanium dioxide surface comprised of a plurality of vertically oriented titanium dioxide nanotubes containing oxygen vacancies, including the steps of anodizing a titanium metal substrate in an acidified fluoride electrolyte and annealing the titanium oxide surface in a non-oxidating atmosphere. The invention further relates to a nanotubular titania substrate having an annealed titanium dioxide surface comprised of self-ordered titanium dioxide nanotubes containing oxygen vacancies. The invention further relates to a photo-electrolysis method for generating H2 wherein the photo-anode is a nanotubular titania substrate of the invention. The invention also relates to an electrochemical method of synthesizing CdZn/CdZnTe nanowires, wherein a nanoporous TiO2 template was used in combination with non-aqueous electrolyte.Type: ApplicationFiled: September 11, 2006Publication date: July 23, 2009Applicant: UNIVERSITY OF NEVADA, RENOInventors: Manoranjan Misra, Krishnan Selva Raja, Susant Kumar Mohapatra, Vishal Khamdeo Mahajan
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Publication number: 20090127124Abstract: Titania is a semiconductor and photocatalyst that is also chemically inert. With its bandgap of 3.0, to activate the photocatalytic property of titania requires light of about 390 nm wavelength, which is in the ultra-violet, where sunlight is very low in intensity. A method and devices are disclosed wherein stress is induced and managed in a thin film of titania in order to shift and lower the bandgap energy into the longer wavelengths that are more abundant in sunlight. Applications of this stress-induced bandgap-shifted titania photocatalytic surface include photoelectrolysis for production of hydrogen gas from water, photovoltaics for production of electricity, and photocatalysis for detoxification and disinfection.Type: ApplicationFiled: July 3, 2007Publication date: May 21, 2009Inventor: John Michael Guerra
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Publication number: 20090045072Abstract: Provided are a III/V group nitride semiconductor causing an oxidation-reduction reaction at a high photoconversion efficiency by irradiation of light, a photocatalytic semiconductor device, a photocatalytic oxidation-reduction reaction apparatus, and an execution process of a photoelectrochemical reaction. In the III/V group nitride semiconductor, the full width at half maximum of an X-ray rocking curve on a catalytic reaction surface thereof is 400 arcsec or less, and a carrier density in a surface layer portion having the catalytic reaction surface is 1.5×1016 cm?3 or more, but 3.0×1018 cm?3 or less. The photocatalytic semiconductor device has the III/V group nitride semiconductor laminated on a substrate.Type: ApplicationFiled: September 6, 2006Publication date: February 19, 2009Applicants: JAPAN SCIENCE AND TECHNOLOGY AGENCY, TOKYO UNIVERSITY OF SCIENCE EDUCATIONAL FOUNDATION ADMINISTRATIVE ORGANIZATIONInventors: Katsushi Fujii, Kazuhiro Ohkawa, Masato Ono, Takashi Ito
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Publication number: 20090014315Abstract: An apparatus for producing hydrogen by microwave includes a microwave heater, a reaction tube comprising a catalyst bed, a cap, an output unit and a microwave control box. A method of producing hydrogen using microwaves has steps of feeding gas and liquid, vaporizing the liquid to from a mixed gas and heating the mixed gas. A liquid and a gas are selected at predetermined ratios to form the mixed gas that reacts on the catalyst bed to from hydrogen. Microwaves allow the apparatus to be ready for production quicker and reduce space required by the apparatus. Heating the liquid and gas using microwaves is fast so has a good energy efficiency.Type: ApplicationFiled: July 13, 2007Publication date: January 15, 2009Inventor: Wei-Hsin Chen
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Publication number: 20080302669Abstract: The present invention is directed to a composite material for photocatalytic H2 production comprising: 1) a polymer gel; 2) a photocatalyst; and a protein based H2 catalyst. The invention also relates to a method to produce H2, comprising reacting an electron donor with a composite material comprising 1) a polymer gel, 2) a photocatalyst, and 3) a protein based H2 catalyst.Type: ApplicationFiled: May 16, 2006Publication date: December 11, 2008Inventors: John W. Peters, Mark J. Young, Trevor Douglas, Timothy E. Elgren
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Publication number: 20080296170Abstract: Hypochlorous acid is produced economically without the supply of electricity energy from outside. To actualize the production, a photoelectric cell having a titanium oxide electrode 1 and a counter electrode 2 is placed in an electrolyte solution 3 containing a metal chloride. Under the environment that oxygen can be supplied to the counter electrode 2 of the photoelectric cell in the electrolyte solution 3, the titanium oxide electrode 1 is irradiated with light.Type: ApplicationFiled: January 26, 2007Publication date: December 4, 2008Applicant: OSAKA Titanium Technologies Co., Ltd.Inventors: Kazuomi Azuma, Tadashi Ogasawara, Shinji Shimosaki, Katsumi Katakura
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Patent number: 7459065Abstract: An apparatus for creating hydrogen from the disassociation of water using sunlight (photoelectrolysis) is provided. The system utilizes an aqueous fluid filled container which functions both to hold the water to be disassociated and as a light collecting lens. A photovoltaic module is positioned at a point to most efficiently accept the refracted light from the fluid filled container. A pair of electrodes which are coupled to the photovoltaic module are disposed within the fluid and configured to split the water into hydrogen and oxygen.Type: GrantFiled: January 28, 2005Date of Patent: December 2, 2008Assignee: General Motors CorporationInventors: Nelson A Kelly, Thomas L Gibson