Patents by Inventor Radoslav Adzic
Radoslav Adzic has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9853255Abstract: Embodiments of the disclosure relate to membrane electrode assemblies. The membrane electrode assembly may include at least one gas-diffusion layer having a first side and a second side, and particle cores adhered to at least one of the first and second sides of the at least one gas-diffusion layer. The particle cores includes surfaces adhered to the at least one of the first and second sides of the at least one gas-diffusion layer and surfaces not in contact with the at least one gas-diffusion layer. Furthermore, a thin layer of catalytically atoms may be adhered to the surfaces of the particle cores not in contact with the at least one gas-diffusion layer.Type: GrantFiled: June 20, 2017Date of Patent: December 26, 2017Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Stoyan Bliznakov, Miomir Vukmirovic
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Publication number: 20170331117Abstract: Embodiments of the disclosure relate to membrane electrode assemblies. The membrane electrode assembly may include at least one gas-diffusion layer having a first side and a second side, and particle cores adhered to at least one of the first and second sides of the at least one gas-diffusion layer. The particle cores includes surfaces adhered to the at least one of the first and second sides of the at least one gas-diffusion layer and surfaces not in contact with the at least one gas-diffusion layer. Furthermore, a thin layer of catalytically atoms may be adhered to the surfaces of the particle cores not in contact with the at least one gas-diffusion layer.Type: ApplicationFiled: June 20, 2017Publication date: November 16, 2017Inventors: Radoslav Adzic, Stoyan Bliznakov, Miomir Vukmirovic
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Patent number: 9716279Abstract: Embodiments of the disclosure relate to electrocatalysts. The electrocatalyst may include at least one gas-diffusion layer having a first side and a second side, and particle cores adhered to at least one of the first and second sides of the at least one gas-diffusion layer. The particle cores includes surfaces adhered to the at least one of the first and second sides of the at least one gas-diffusion layer and surfaces not in contact with the at least one gas-diffusion layer. Furthermore, a thin layer of catalytically atoms may be adhered to the surfaces of the particle cores not in contact with the at least one gas-diffusion layer.Type: GrantFiled: May 15, 2014Date of Patent: July 25, 2017Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Stoyan Bliznakov, Miomir Vukmirovic
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Publication number: 20170104221Abstract: The present invention is to provide a method for producing a core-shell catalyst for fuel cells, which is configured to facilitate shell deposition by, at the time of shell deposition, decreasing an oxidation-reduction potential lower than ever before. Disclosed is a method for producing a core-shell catalyst for fuel cells, wherein the method comprises: a bubbling step of bubbling hydrogen into a mixture A containing a core fine particle-supported carbon and alcohol; a first refluxing step of refluxing the mixture A after the bubbling step; a mixing step of preparing a mixture B by, after the first refluxing step, mixing the mixture A having a temperature that is lower than that in the first refluxing step with a shell material; and a second refluxing step of refluxing the mixture B.Type: ApplicationFiled: October 8, 2015Publication date: April 13, 2017Inventors: Makoto Adachi, Yasuyuki Ohki, Tetsuya Ogawa, Radoslav Adzic, Jia Xu Wang, Yu Zhang
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Publication number: 20170104219Abstract: The present invention is to provide a method for producing a core-shell catalyst for fuel cells, which is configured to facilitate shell deposition by, in the production of the core-shell catalyst for fuel cells, decreasing an oxidation-reduction potential applied for shell deposition lower than ever before. Disclosed is a method for producing a core-shell catalyst for fuel cells, wherein the method comprises: a first refluxing step of refluxing a mixture A containing a core fine particle-supported carbon, alcohol and water; a mixing step of preparing a mixture B by, after the first refluxing step, mixing the mixture A having a temperature that is lower than that in the first refluxing step with a shell material; and a second refluxing step of refluxing the mixture B.Type: ApplicationFiled: October 8, 2015Publication date: April 13, 2017Inventors: Makoto Adachi, Yasuyuki Ohki, Tetsuya Ogawa, Radoslav Adzic, Jia Xu Wang, Yu Zhang
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Publication number: 20160160376Abstract: An apparatus for the synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus is comprised of a three-electrode cell which includes a cell body electrode, a reference electrode and a floating counter electrode. The floating counter electrode may be disposed inside a counter electrode compartment which is adapted to float in a slurry containing a plurality of nanoparticles and an electrolyte.Type: ApplicationFiled: November 19, 2015Publication date: June 9, 2016Applicant: BROOKHAVEN SCIENCE ASSOCIATES, LLCInventors: Radoslav Adzic, Junliang Zhang, Kotaro Sasaki
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Publication number: 20150303488Abstract: Elongated noble-metal nanoparticles and methods for their manufacture are disclosed. The method involves the formation of a plurality of elongated noble-metal nanoparticles by electrochemical deposition of the noble metal on a high surface area carbon support, such as carbon nanoparticles. Prior to electrochemical deposition, the carbon support may be functionalized by oxidation, thus making the manufacturing process simple and cost-effective. The generated elongated nanoparticles are covalently bound to the carbon support and can be used directly in electrocatalysis. The process provides elongated noble-metal nanoparticles with high catalytic activities and improved durability in combination with high catalyst utilization since the nanoparticles are deposited and covalently bound to the carbon support in their final position and will not change in forming an electrode assembly.Type: ApplicationFiled: June 30, 2015Publication date: October 22, 2015Inventors: Radoslav Adzic, Stoyan Bliznakov, Miomir Vukmirovic
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Publication number: 20150255799Abstract: An apparatus and method for the synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus is comprised of a three-electrode cell which includes a reference electrode, a counter electrode, and a working electrode. The working electrode is preferably a cylindrical vessel having an electrically conductive region. The electrode assembly is introduced into a slurry containing metal ions and a plurality of particles. During operation an electrical potential is applied and the working electrode is rotated at a predetermined speed. When particles in the slurry collide with the electrically conductive region the transferred charge facilitates deposition of an adlayer of the desired metal. In this manner film growth can commence on a large number of particles simultaneously. This process is especially suitable as a commercial thin film deposition process for forming catalytically active layers on nanoparticles for use in energy conversion devices.Type: ApplicationFiled: May 18, 2015Publication date: September 10, 2015Inventors: Radoslav Adzic, Miomir Vukmirovic
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Patent number: 9099253Abstract: Elongated noble-metal nanoparticles and methods for their manufacture are disclosed. The method involves the formation of a plurality of elongated noble-metal nanoparticles by electrochemical deposition of the noble metal on a high surface area carbon support, such as carbon nanoparticles. Prior to electrochemical deposition, the carbon support may be functionalized by oxidation, thus making the manufacturing process simple and cost-effective. The generated elongated nanoparticles are covalently bound to the carbon support and can be used directly in electrocatalysis. The process provides elongated noble-metal nanoparticles with high catalytic activities and improved durability in combination with high catalyst utilization since the nanoparticles are deposited and covalently bound to the carbon support in their final position and will not change in forming an electrode assembly.Type: GrantFiled: September 21, 2012Date of Patent: August 4, 2015Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Stoyan Blyznakov, Miomir Vukmirovic
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Patent number: 9017530Abstract: An apparatus and method for synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus comprises a sonication bath and a two-compartment chamber submerged in the sonication bath. The upper and lower compartments are separated by a microporous material surface. The upper compartment comprises a cover and a working electrode (WE) connected to a Pt foil contact, with the foil contact connected to the microporous material. The upper chamber further comprises reference counter electrodes. The lower compartment comprises an electrochemical cell containing a solution of metal ions. In one embodiment, the method for synthesis of electrocatalysts comprises introducing a plurality of particles into the apparatus and applying sonication and an electrical potential to the microporous material connected to the WE.Type: GrantFiled: March 22, 2012Date of Patent: April 28, 2015Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Junliang Zhang, Kotaro Sasaki
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Patent number: 9005331Abstract: Core-shell particles encapsulated by a thin film of a catalytically active metal are described. The particles are preferably nanoparticles comprising a non-noble core with a noble metal shell which preferably do not include Pt. The non-noble metal-noble metal core-shell nanoparticles are encapsulated by a catalytically active metal which is preferably Pt. The core-shell nanoparticles are preferably formed by prolonged elevated-temperature annealing of nanoparticle alloys in an inert environment. This causes the noble metal component to surface segregate and form an atomically thin shell. The Pt overlayer is formed by a process involving the underpotential deposition of a monolayer of a non-noble metal followed by immersion in a solution comprising a Pt salt. A thin Pt layer forms via the galvanic displacement of non-noble surface atoms by more noble Pt atoms in the salt. The overall process is a robust and cost-efficient method for forming Pt-coated non-noble metal-noble metal core-shell nanoparticles.Type: GrantFiled: February 18, 2010Date of Patent: April 14, 2015Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Junliang Zhang, Yibo Mo, Miomir Vukmirovic
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Publication number: 20150017565Abstract: Embodiments of the disclosure relate to electrocatalysts. The electrocatalyst may include at least one gas-diffusion layer having a first side and a second side, and particle cores adhered to at least one of the first and second sides of the at least one gas-diffusion layer. The particle cores includes surfaces adhered to the at least one of the first and second sides of the at least one gas-diffusion layer and surfaces not in contact with the at least one gas-diffusion layer. Furthermore, a thin layer of catalytically atoms may be adhered to the surfaces of the particle cores not in contact with the at least one gas-diffusion layer.Type: ApplicationFiled: May 15, 2014Publication date: January 15, 2015Applicant: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Stoyan Bliznakov, Miomir Vukmirovic
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Patent number: 8834338Abstract: The present invention discloses a method of selectively providing radiation dosimetry to a subject in need of such treatment. The radiation is applied by an implant comprising a body member and 117mSn electroplated at selected locations of the body member, emitting conversion electrons absorbed immediately adjacent selected locations while not affecting surrounding tissue outside of the immediately adjacent area.Type: GrantFiled: June 6, 2007Date of Patent: September 16, 2014Assignee: SnIP Holdings, Inc.Inventors: Suresh Srivastava, Gilbert R. Gonzales, Roger W. Howell, Wesley E. Bolch, Radoslav Adzic
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Patent number: 8699207Abstract: High-surface-area carbon nanostructures coated with a smooth and conformal submonolayer-to-multilayer thin metal films and their method of manufacture are described. The preferred manufacturing process involves the initial oxidation of the carbon nanostructures followed by a surface preparation process involving immersion in a solution with the desired pH to create negative surface dipoles. The nanostructures are subsequently immersed in an alkaline solution containing a suitable quantity of non-noble metal ions which adsorb at surface reaction sites. The metal ions are then reduced via chemical or electrical means. The nanostructures are exposed to a solution containing a salt of one or more noble metals which replace adsorbed non-noble surface metal atoms by galvanic displacement. The process can be controlled and repeated to obtain a desired film coverage.Type: GrantFiled: October 21, 2009Date of Patent: April 15, 2014Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Alexander Harris
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Patent number: 8404613Abstract: High-surface-area carbon nanostructures coated with a smooth and conformal submonolayer-to-multilayer thin metal films and their method of manufacture are described. The preferred manufacturing process involves the initial oxidation of the carbon nanostructures followed by immersion in a solution with the desired pH to create negative surface dipoles. The nanostructures are subsequently immersed in an alkaline solution containing non-noble metal ions which adsorb at surface reaction sites. The metal ions are then reduced via chemical or electrical means and the nanostructures are exposed to a solution containing a salt of one or more noble metals which replace adsorbed non-noble surface metal atoms by galvanic displacement. Subsequent film growth may be performed via the initial quasi-underpotential deposition of a non-noble metal followed by immersion in a solution comprising a more noble metal.Type: GrantFiled: February 22, 2010Date of Patent: March 26, 2013Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Alexander Harris
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Publication number: 20130056359Abstract: An apparatus and method for the synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus is comprised of a three-electrode cell which includes a reference electrode, a counter electrode, and a working electrode. The working electrode is preferably a cylindrical vessel having an electrically conductive region. The electrode assembly is introduced into a slurry containing metal ions and a plurality of particles. During operation an electrical potential is applied and the working electrode is rotated at a predetermined speed. When particles in the slurry collide with the electrically conductive region the transferred charge facilitates deposition of an ad-layer of the desired metal. In this manner film growth can commence on a large number of particles simultaneously. This process is especially suitable as a commercial thin film deposition process for forming catalytically active layers on nanoparticles for use in energy conversion devices.Type: ApplicationFiled: March 24, 2011Publication date: March 7, 2013Applicant: BROOKHAVEN SCIENCE ASSOCIATES LLCInventors: Radoslav Adzic, Miomir Vukmirovic
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Patent number: 8308989Abstract: The invention relates to platinum-metal oxide composite particles and their use as electrocatalysts in oxygen-reducing cathodes and fuel cells. The invention particularly relates to methods for preventing the oxidation of the platinum electrocatalyst in the cathodes of fuel cells by use of these platinum-metal oxide composite particles. The invention additionally relates to methods for producing electrical energy by supplying such a fuel cell with an oxidant, such as oxygen, and a fuel source, such as hydrogen.Type: GrantFiled: February 24, 2011Date of Patent: November 13, 2012Assignee: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Junliang Zhang, Miomir Vukmirovic
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Publication number: 20120245019Abstract: An apparatus and method for the synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus is comprised of a three-electrode cell which includes a cell body electrode, a reference electrode, and a counter electrode. A slurry containing non-noble metal ions and a plurality of particles is introduced into the apparatus. During operation an electrical potential is applied and the slurry is stirred. When particles in the slurry collide with the electrically conductive region of the cell body electrode the transferred charge facilitates deposition of an adlayer of the desired metal. In this manner film growth can commence on a large number of particles simultaneously. After the non-noble metal ions are deposited onto the particles, they are displaced by noble-metal ions by galvanic displacement. This process is especially suitable for forming catalytically active layers on nanoparticles for use in energy conversion devices.Type: ApplicationFiled: March 22, 2012Publication date: September 27, 2012Applicant: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Junliang Zhang, Kotaro Sasaki
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Publication number: 20120245017Abstract: An apparatus and method for synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus comprises a sonication bath and a two-compartment chamber submerged in the sonication bath. The upper and lower compartments are separated by a microporous material surface. The upper compartment comprises a cover and a working electrode (WE) connected to a Pt foil contact, with the foil contact connected to the microporous material. The upper chamber further comprises reference counter electrodes. The lower compartment comprises an electrochemical cell containing a solution of metal ions. In one embodiment, the method for synthesis of electrocatalysts comprises introducing a plurality of particles into the apparatus and applying sonication and an electrical potential to the microporous material connected to the WE.Type: ApplicationFiled: March 22, 2012Publication date: September 27, 2012Applicant: Brookhaven Science Associates, LLCInventors: Radoslav Adzic, Junliang Zhang, Kotaro Sasaki
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Publication number: 20120109287Abstract: Methods for preparing an implant coated with a conversion electron emitting source (CEES) are disclosed. The typical method includes cleaning the surface of the implant; placing the implant in an activating solution comprising hydrochloric acid to activate the surface; reducing the surface by H2 evolution in H2SO4 solution; and placing the implant in an electroplating solution that includes ions of the CEES, HCl, H2SO4, and resorcinol, gelatin, or a combination thereof. Alternatively, before tin plating, a seed layer is formed on the surface. The electroplated CEES coating can be further protected and stabilized by annealing in a heated oven, by passivation, or by being covered with a protective film. The invention also relates to a holding device for holding an implant, wherein the device selectively prevents electrodeposition on the portions of the implant contacting the device.Type: ApplicationFiled: December 22, 2011Publication date: May 3, 2012Inventors: Suresh C. Srivastava, Gilbert R. Gonzales, Radoslav Adzic, George E. Meinken