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ALAN W. WEIMER (Inventor)
ISSUED UNITED STATES PATENTS
[1] “Nanomaterials for Quantum Tunneling Varistors,” U.S. Patent 7,132,697 (2006)
[2] “Solar-thermal Fluid-wall Reaction Processing,” U.S. Patent 7,033,570 (2006).
[3] “Nanocoated Primary Particles and Method for Their Manufacture,” U.S.Patent 6,913,827 (2005)
[4] “Solar Thermal Aerosol Flow Reaction Process,” U.S. Patent 6,872,378 (2005).
[5] “Insulating and Functionalizing Fine Metal–containing Particles with Conformal Ultra-thin Films,” U.S. Patent 6,713,177 (2004).
[6] “Rapid Conversion of Metal-containing Compounds to Form Metals or Metal Alloys,” U.S. Patent 6,689,191 (2004).
[7] “Atomic Layer Controlled Deposition on Particle Surfaces,” U.S. Patent 6,613,383 (2003).
[8] “Low Temperature Oxidation Using Supported Molten Salt Catalysts,” U.S. Patent 6,565,820 (2003).
[9] "Method to Produce a Transition Metal Carbide from a Partially Reduced Transition Metal Compound,” U.S. Patent 6,495,115 (2002).
[10] "Method for Making Submicrometer Transition Metal Carbonitrides,” U.S. Patent 5,756,410 (1998).
[11] “Silicon Nitride/Silicon Carbide Composite Densified Materials Prepared Using Composite Powders,” U.S. Patent 5,643,843 (1997)
[12] “Moving Bed Process for Carbothermally Synthesizing Nonoxide Ceramic Powders,” U.S. Patent 5,607,297 (1997)
[13] "Method for Producing Silicon Nitride/Silicon Carbide Composite," U.S. Patent 5,538,675 (1996)
[14] "Silicon Nitride/Silicon Carbide Composite Powders,” U.S. Patent 5,525,556 (1996)
[15] "Carbothermal Synthesis Precursors," U.S. Patent 5,384,291 (1995).
[16] "Method for Making Submicrometer Carbides, Submicrometer Solid Solution Carbides, and the Materials Resulting Therefrom," U.S. Patent 5,380,688 (1995).
[17] "Moving Bed Reactor Process," U.S. Patent 5,370,854 (1994).
[18] "Process for Preparing Silicon Carbide," U.S. Patent 5,340,417 (1994).
[19] "Process for Preparing Ultrafine Aluminum Nitride Powder," U.S. Patent 5,219,804 (1993).
[20] "Method for Producing Uniform, Fine Boron-Containing Ceramic Powders," U.S. Patent 5,194,234 (1993).
[21] "High Yield Manufacturing Process for Silicon Carbide," U.S. Patent 5,190,737 (1993).
[22] "Process for Preparing Aluminum Nitride Powder via Controlled Combustion Nitridation," U.S. Patent 5,126,121 (1992).
[23] "Apparatus for Producing Uniform, Fine Ceramic Powders," U.S. Patent 5,110,565 (1992).
Pending US Patents
[1] “Metal Oxide Based Process for the Generation of Hydrogen from Water Splitting Utilizing a High Temperature Solar Aerosol Flow Reactor,” U.S. Provisional Patent filed November 17, 2004.
[2] ”Method of Depositing of an Inorganic Film on an Organic Polymer,” US Patent Application 20040194691 (published October 7, 2004); WO 03/008110 A1 (filed January 30, 2003); Provisional U.S. Patent filed July 18, 2001/Priority USP 306521; Application No.Patent No. 02748191.0-2113-US0222742
[3] “Dental Composite Filler Particles,” U.S. Patent Application 20040224087 (published November 11, 2004); Provisional U.S. Patent Application No. 60/445,540 (filed February 6, 2003)
[4] “Rapid Solar-thermal Conversion of Biomass to Syngas,” PCT International Patent Application PCT/US07/77134 (August 29, 2007)
[5] “Methods for Producing Coated Phosphor and Host Materials Particles Using Atomic Layer Deposition Methods,” US Application 11/473,289 (June 22, 2006)
[6] “Coated Particles and Sunscreen and Cosmetic Products Containing Same,” US Application 11/801,124 (May 8, 2007)
[7] “Methods for Producing Nano-scale and Submicron Sized Metal Particles with an Inorganic Coating,” Provisional US Patent Application US/60/855,301 (October 30, 2006)
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