Patents by Inventor Mark Philip D'Evelyn
Mark Philip D'Evelyn 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: 10975492Abstract: A method for growing a crystalline composition, the first crystalline composition may include gallium and nitrogen. The crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1. In one embodiment, the composition ay have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the first crystalline composition.Type: GrantFiled: January 11, 2019Date of Patent: April 13, 2021Assignee: SLT TECHNOLOGIES, INC.Inventors: Mark Philip D'Evelyn, Kristi Jean Narang, Dong-Sil Park, Huicong Hong, Xian-An Cao, Larry Qiang Zeng
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Publication number: 20190249328Abstract: A method for growing a crystalline composition, the first crystalline composition may include gallium and nitrogen. The crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1. In one embodiment, the composition ay have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the first crystalline composition.Type: ApplicationFiled: January 11, 2019Publication date: August 15, 2019Inventors: Mark Philip D'Evelyn, Kristi Jean Narang, Dong-Sil Park, Huicong Hong, Xian-An Cao, Larry Qiang Zeng
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Patent number: 10293318Abstract: A pressure release mechanism for use with a capsule for processing materials or growing crystals in supercritical fluids is disclosed. The capsule with the pressure release mechanism is scalable up to very large volumes and is cost effective according to a preferred embodiment. In conjunction with suitable high pressure apparatus, the capsule with pressure release mechanism is capable of processing materials at pressures and temperatures of 20-2000 MPa and 25-1500° C., respectively. Of course, there can be other variations, modifications, and alternatives.Type: GrantFiled: September 19, 2016Date of Patent: May 21, 2019Assignee: SLT TECHNOLOGIES, INC.Inventors: Mark Philip D'Evelyn, Rajeev Tirumala Pakalapati
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Patent number: 10208396Abstract: A method for growing a crystalline composition, the first crystalline composition may include gallium and nitrogen. The crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1. In one embodiment, the composition may have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the first crystalline composition.Type: GrantFiled: March 4, 2016Date of Patent: February 19, 2019Assignee: Soraa, Inc.Inventors: Mark Philip D'Evelyn, Kristi Jean Narang, Dong-Sil Park, Huicong Hong, Xian-An Cao, Larry Qiang Zeng
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Publication number: 20170081779Abstract: A pressure release mechanism for use with a capsule for processing materials or growing crystals in supercritical fluids is disclosed. The capsule with the pressure release mechanism is scalable up to very large volumes and is cost effective according to a preferred embodiment. In conjunction with suitable high pressure apparatus, the capsule with pressure release mechanism is capable of processing materials at pressures and temperatures of 20-2000 MPa and 25-1500° C., respectively. Of course, there can be other variations, modifications, and alternatives.Type: ApplicationFiled: September 19, 2016Publication date: March 23, 2017Inventors: MARK PHILIP D'EVELYN, RAJEEV TIRUMALA PAKALAPATI
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Publication number: 20160319457Abstract: A method for growing a crystalline composition, the first crystalline composition may include gallium and nitrogen. The crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1. In one embodiment, the composition may have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the first crystalline composition.Type: ApplicationFiled: March 4, 2016Publication date: November 3, 2016Applicant: MOMENTIVE PERFORMANCE MATERIALS INC.Inventors: Mark Philip D'Evelyn, Kristi Jean Narang, Dong-Sil Park, Huicong Hong, Xian-An Cao, Larry Qiang Zeng
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Patent number: 9279193Abstract: A method for growing a crystalline composition, the first crystalline composition may include gallium and nitrogen. The crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1. In one embodiment, the composition may have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the first crystalline composition.Type: GrantFiled: November 9, 2006Date of Patent: March 8, 2016Assignee: Momentive Performance Materials Inc.Inventors: Mark Philip D'Evelyn, Kristi Jean Narang, Dong-Sil Park, Huicong Hong, Xian-An Cao, Larry Qiang Zeng
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Patent number: 8357945Abstract: There is provided a GaN single crystal at least about 2.75 millimeters in diameter, with a dislocation density less than about 104 cm?1, and having substantially no tilt boundaries. A method of forming a GaN single crystal is also disclosed. The method includes providing a nucleation center, a GaN source material, and a GaN solvent in a chamber. The chamber is pressurized. First and second temperature distributions are generated in the chamber such that the solvent is supersaturated in the nucleation region of the chamber. The first and second temperature distributions have different temperature gradients within the chamber.Type: GrantFiled: October 26, 2006Date of Patent: January 22, 2013Assignee: Momentive Performance Materials Inc.Inventors: Mark Philip D'Evelyn, Dong-Sil Park, Steven Francis LeBoeuf, Larry Burton Rowland, Kristi Jean Narang, Huicong Hong, Peter Micah Sandvik
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Patent number: 8216370Abstract: A method for removing defects at high pressure and high temperature (HP/HT) or for relieving strain in a non-diamond crystal commences by providing a crystal, which contains defects, and a pressure medium. The crystal and the pressure medium are disposed in a high pressure cell and placed in a high pressure apparatus, for processing under reaction conditions of sufficiently high pressure and high temperature for a time adequate for one or more of removing defects or relieving strain in the single crystal.Type: GrantFiled: December 12, 2005Date of Patent: July 10, 2012Assignee: Momentive Performance Materials Inc.Inventors: Mark Philip D'Evelyn, Thomas Richard Anthony, Stephen Daley Arthur, Lionel Monty Levinson, John William Lucek, Larry Burton Rowland, Suresh Shankarappa Vagarali
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Publication number: 20120017825Abstract: A method for growing a crystalline composition, the first crystalline composition may include gallium and nitrogen. The crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1. In one embodiment, the composition ay have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the first crystalline composition.Type: ApplicationFiled: November 9, 2006Publication date: January 26, 2012Applicant: General Electric CompanyInventors: Mark Philip D'Evelyn, Kristi Jean Narang, Dong-Sil Park, Huicong Hong, Xian-An Cao, Larry Qiang Zeng
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Patent number: 8039412Abstract: A composition including a polycrystalline metal nitride having a number of grains is provided. These grains have a columnar structure with one or more properties such as, an average grain size, a tilt angle, an impurity content, a porosity, a density, and an atomic fraction of the metal in the metal nitride.Type: GrantFiled: December 20, 2005Date of Patent: October 18, 2011Assignee: Momentive Performance Materials Inc.Inventors: Dong-Sil Park, Mark Philip D'Evelyn, Myles Standish Peterson, II, John Thomas Leman, Fred Sharifi
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Patent number: 7942970Abstract: A composition including a polycrystalline metal nitride having a number of grains is provided. These grains have a columnar structure with one or more properties such as, an average grain size, a tilt angle, an impurity content, a porosity, a density, and an atomic fraction of the metal in the metal nitride. An apparatus for preparing a metal nitride is provided. The apparatus may include a housing having an interior surface that defines a chamber and an energy source to supply energy to the chamber. A first inlet may be provided to flow a nitrogen-containing gas into the chamber. Raw materials may be introduced into the chamber through a raw material inlet. A second inlet may be provided to flow in a halide-containing gas in the chamber. The apparatus may further include a controller, which communicates with the various components of the apparatus such as, sensors, valves, and energy source, and may optimize and control the reaction.Type: GrantFiled: December 20, 2005Date of Patent: May 17, 2011Assignee: Momentive Performance Materials Inc.Inventors: Dong-Sil Park, Mark Philip D'Evelyn, Myles Standish Peterson, II, John Thomas Leman, Joell Randolph Hibshman, II, Fred Sharifi
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Patent number: 7935382Abstract: A method of making a metal nitride is provided. The method may include introducing a metal in a chamber. A nitrogen-containing material may be flowed into the chamber. Further, a hydrogen halide may be introduced. The nitrogen-containing material may react with the metal in the chamber to form the metal nitride.Type: GrantFiled: December 20, 2005Date of Patent: May 3, 2011Assignee: Momentive Performance Materials, Inc.Inventors: Dong-Sil Park, Mark Philip D'Evelyn, Myles Standish Peterson, II, John Thomas Leman, Joell Randolph Hibshman, II, Fred Sharifi
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Patent number: 7859008Abstract: A crystalline composition is provided that includes gallium and nitrogen. The crystalline composition may have an amount of oxygen present in a concentration of less than about 3×1018 per cubic centimeter, and may be free of two-dimensional planar boundary defects in a determined volume of the crystalline composition. The volume may have at least one dimension that is about 2.75 millimeters or greater, and the volume may have a one-dimensional linear defect dislocation density of less than about 10,000 per square centimeter.Type: GrantFiled: January 9, 2007Date of Patent: December 28, 2010Assignee: Momentive Performance Materials Inc.Inventors: Mark Philip D'Evelyn, Dong-Sil Park, Steven Francis LeBoeuf, Larry Burton Rowland, Kristi Jean Narang, Huicong Hong, Stephen Daley Arthur, Peter Micah Sandvik
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Patent number: 7786503Abstract: A crystal comprising gallium nitride is disclosed. The crystal has at least one grain having at least one dimension greater than 2.75 mm, a dislocation density less than about 104 cm?2, and is substantially free of tilt boundaries.Type: GrantFiled: November 13, 2006Date of Patent: August 31, 2010Assignee: Momentive Performance Materials Inc.Inventors: Mark Philip D'Evelyn, Dong-Sil Park, Steven Francis LeBoeuf, Larry Burton Rowland, Kristi Jean Narang, Huicong Hong, Stephen Daley Arthur, Peter Micah Sandvik
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Publication number: 20100189924Abstract: An apparatus and methods for forming a diamond film, are provided. An example of an apparatus for forming a diamond film includes an electrodeless microwave plasma reactor having a microwave plasma chamber configured to contain a substrate and to contain a reactant gas excited by microwaves to generate a microwave plasma discharge. Gas injection ports extend through an outer wall of the plasma chamber at a location upstream of the plasma discharge and above the substrate. Gas jet injection nozzles interface with the gas injection ports and are configured to form a directed gas stream of reactant gas having sufficient kinetic energy to disturb a boundary layer above an operational surface of the substrate to establish a convective transfer of the film material to the operational surface of the substrate.Type: ApplicationFiled: January 23, 2009Publication date: July 29, 2010Applicant: LOCKHEED MARTIN CORPORATIONInventors: Mark Philip D'Evelyn, John Dewey Blouch, Ludwig Christian Haber, Hongying Peng, David Dils, Svetlana Selezneva, Kristi Jean Narang
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Patent number: 7705276Abstract: A heater that may include an outer housing and an inner tube is provided. The inner tube is in a coaxial relation to and within the outer housing. An inward facing surface of the inner tube defines a volume sufficient to receive a reaction capsule, and the outward facing surface is radially spaced from an inward facing surface of the outer housing sufficient to define a gap. A filler material is disposed within the gap. The filler material responds to pressure such that the filler volume is reduced by less than 5 volume percent at greater than 500 MPa pressure and at greater than 500° C. temperature. One or more heating elements are disposed in the gap. The heating elements are in thermal communication with the inner tube.Type: GrantFiled: September 14, 2006Date of Patent: April 27, 2010Assignee: Momentive Performance Materials Inc.Inventors: Robert Arthur Giddings, Mark Philip D'Evelyn, Subhrajit Dey, Bruce John Badding, Larry Qiang Zeng
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Patent number: 7704324Abstract: An apparatus and method for processing materials in supercritical fluids is disclosed. The apparatus includes a capsule configured to contain a supercritical fluid, a high strength enclosure disposed about the capsule and a sensor configured to sense pressure difference between an interior and an exterior of the capsule. The apparatus also includes a pressure control device configured to adjust pressure difference of the capsule in response to the pressure difference sensed by the sensor. The apparatus further includes at least one dividing structure disposed within the capsule that divides the capsule into a seed growing chamber and a nutrient chamber.Type: GrantFiled: January 25, 2005Date of Patent: April 27, 2010Assignee: General Electric CompanyInventors: Mark Philip D'Evelyn, Robert Arthur Giddings, Fred Sharifi, Subhrajit Dey, Huicong Hong, Joseph Alexander Kapp, Ashok Kumar Khare
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Patent number: 7642122Abstract: A method for growing a nitride crystal and a crystalline composition selected from one of AlN, InGaN, AlGaInN, InGaN, and AlGaNInN is provided. The composition comprises a true single crystal, grown from a single nucleus, at least 1 mm in diameter, free of lateral strain and tilt boundaries, with a dislocation density less than about 104 cm?2.Type: GrantFiled: October 5, 2007Date of Patent: January 5, 2010Assignee: Momentive Performance Materials Inc.Inventors: Steven Alfred Tysoe, Dong-Sil Park, John Thomas Leman, Mark Philip D'Evelyn, Kristi Jean Narang, Huicong Hong
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Patent number: 7638815Abstract: A crystalline composition is provided. The crystalline composition may include gallium and nitrogen; and the crystalline composition may have an infrared absorption peak at about 3175 cm?1, with an absorbance per unit thickness of greater than about 0.01 cm?1.Type: GrantFiled: January 9, 2007Date of Patent: December 29, 2009Assignee: Momentive Performance Materials Inc.Inventors: Mark Philip D'Evelyn, Dong-Sil Park, Steven Francis LeBoeuf, Larry Burton Rowland, Kristi Jean Narang, Huicong Hong, Stephen Daley Arthur, Peter Micah Sandvik