Patents by Inventor Michael Alford
Michael Alford 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).
-
Patent number: 8367032Abstract: The invention provides improved burners, combustion apparatus, and methods for carbon nanomaterial production. The burners of the invention provide sooting flames of fuel and oxidizing gases. The condensable products of combustion produced by the burners of this invention produce carbon nanomaterials including without limitation, soot, fullerenic soot, and fullerenes. The burners of the invention do not require premixing of the fuel and oxidizing gases and are suitable for use with low vapor pressure fuels such as those containing substantial amounts of polyaromatic hydrocarbons. The burners of the invention can operate with a hot (e.g., uncooled) burner surface and require little, if any, cooling or other forms of heat sinking. The burners of the invention comprise one or more refractory elements forming the outlet of the burner at which a flame can be established. The burners of the invention provide for improved flame stability, can be employed with a wider range of fuel/oxidizer (e.g.Type: GrantFiled: March 9, 2007Date of Patent: February 5, 2013Assignee: Frontier Carbon CorporationInventors: J. Michael Alford, Michael D. Diener, James Nabity, Michael Karpuk
-
Patent number: 7812190Abstract: The invention provides improved therapeutic and diagnostic fullerenes and endohedral fullerenes. The fullerenes and endohedral fullerenes of the invention are derivatized with at least two charged functional groups (and preferably more than two charged functional groups) to provide for water-solubility and improved in vivo biodistribution. Improved derivatized fullerenes and endohedral fullerenes carry a plurality of functional groups at least two of which are charged. Preferably at least about ? of the possible derivations sites on the fullerene caged carry derivatives and preferably at least about ½ of the functional groups on the fullerene cage are charged groups. The invention also provides water-soluble endohedral metallofullerene with improved biodistribution which are useful as in vivo imaging agents, including MRI contrast agents.Type: GrantFiled: April 9, 2003Date of Patent: October 12, 2010Assignee: TDA Research, Inc.Inventors: Robert D. Bolskar, J. Michael Alford
-
Patent number: 7671230Abstract: This invention provides improved methods for the derivatization and solubilization of fullerenes, which are particularly useful for those fullerenes that are normally insoluble and which are specifically applied, among others, to endohedral fullerenes, including endohedral metallofullerenes; empty fullerenes, including small-bandgap fullerenes and other insoluble fullerenes and to very high molecular weight fullerenic materials generated in fullerenic soot, including giant fullerenes, fullerenic polymers, carbon nanotubes and metal-carbon nanoencapsulates. More specifically the invention relates to improved methods for cyclopropanation of fullerenes. Specific reaction conditions are provided which allow for cyclopropanation reactions to be successfully performed for the first time on insoluble classes of fullerenes.Type: GrantFiled: October 1, 2002Date of Patent: March 2, 2010Assignee: TDA Research, Inc.Inventors: Robert D. Bolskar, J. Michael Alford
-
Publication number: 20090191115Abstract: The invention provides improved burners, combustion apparatus, and methods for carbon nanomaterial production. The burners of the invention provide sooting flames of fuel and oxidizing gases. The condensable products of combustion produced by the burners of this invention produce carbon nanomaterials including without limitation, soot, fullerenic soot, and fullerenes. The burners of the invention do not require premixing of the fuel and oxidizing gases and are suitable for use with low vapor pressure fuels such as those containing substantial amounts of polyaromatic hydrocarbons. The burners of the invention can operate with a hot (e.g., uncooled) burner surface and require little, if any, cooling or other forms of heat sinking. The burners of the invention comprise one or more refractory elements forming the outlet of the burner at which a flame can be established. The burners of the invention provide for improved flame stability, can be employed with a wider range of fuel/oxidizer (e.g.Type: ApplicationFiled: March 9, 2007Publication date: July 30, 2009Inventors: J. Michael Alford, Michael D. Diener, James A. Nabity, Michael E. Karpuk
-
Publication number: 20080021745Abstract: A system and methods for searching for and displaying travel itineraries and fares that satisfy a traveler's flexible travel requirements. Users may enter data relating to a trip's origin and a destination as well as various dates the user can travel. The system and methods locate multiple itineraries that cover the various dates on which the user can travel. The system and methods allow prospective travelers to efficiently identify which itineraries best meet their schedules and budgetary requirements.Type: ApplicationFiled: July 31, 2007Publication date: January 24, 2008Applicant: ORBITZ LLCInventors: Anne Razza, Michael Alford, Gillian Tarinelli
-
Patent number: 7279137Abstract: The invention provides improved burners, combustion apparatus, and methods for carbon nanomaterial production. The burners of the invention provide sooting flames of fuel and oxidizing gases. The condensable products of combustion produced by the burners of this invention produce carbon nanomaterials including without limitation, soot, fullerenic soot, and fullerenes. The burners of the invention do not require premixing of the fuel and oxidizing gases and are suitable for use with low vapor pressure fuels such as those containing substantial amounts of polyaromatic hydrocarbons. The burners of the invention can operate with a hot (e.g., uncooled) burner surface and require little, if any, cooling or other forms of heat sinking. The burners of the invention comprise one or more refractory elements forming the outlet of the burner at which a flame can be established. The burners of the invention provide for improved flame stability, can be employed with a wider range of fuel/oxidizer (e.g.Type: GrantFiled: March 15, 2002Date of Patent: October 9, 2007Assignee: TDA Research, Inc.Inventors: J. Michael Alford, Michael D. Diener, James Nabity, Michael Karpuk
-
Patent number: 7208132Abstract: The invention provides a method of separating a first and a second set of fullerenes in a fullerene mixture. In the method of the invention, a stable fullerene cation is formed of one of the first or the second set of fullerenes. The fullerene cation is then separated from the other set of fullerenes. Optionally, the fullerene cation may be returned to its neutral state. The method of the invention is particularly useful for the purification and separation of endohedral fullerenes from empty fullerenes. However, the method may be applied to the purification of a broad range of endohedral and empty fullerene materials.Type: GrantFiled: October 1, 2002Date of Patent: April 24, 2007Assignee: TDA Research, Inc.Inventors: Robert D. Bolskar, J. Michael Alford
-
Patent number: 7157066Abstract: The present invention provides a combustion apparatus for the production of carbon nanomaterials including fullerenes and fullerenic soot. Most generally the combustion apparatus comprises one or more inlets for introducing an oxygen-containing gas and a hydrocarbon fuel gas in the combustion system such that a flame can be established from the mixed gases, a droplet delivery apparatus for introducing droplets of a liquid hydrocarbon feedstock into the flame, and a collector apparatus for collecting condensable products containing carbon nanomaterials that are generated in the combustion system. The combustion system optionally has a reaction zone downstream of the flame. If this reaction zone is present the hydrocarbon feedstock can be introduced into the flame, the reaction zone or both.Type: GrantFiled: November 27, 2002Date of Patent: January 2, 2007Assignee: TDA Research, Inc.Inventors: Michael D. Diener, J. Michael Alford, James Nabity, Bradley D. Hitch
-
Patent number: 7150863Abstract: This invention provides improved methods for combustion synthesis of carbon nanomaterials, including fullerenes, employing multiple-ring aromatic hydrocarbon fuels selected for high carbon conversion to extractable fullerenes. The multiple-ring aromatic hydrocarbon fuels include those that contain polynuclear aromatic hydrocarbons. More specifically, multiple-ring aromatic hydrocarbon fuels contain a substantial amount of indene, methylnapthalenes or mixtures thereof. Coal tar and petroleum distillate fractions provide low cost hydrocarbon fuels containing polynuclear aromatic hydrocarbons, including without limitation, indene, methylnapthalenes or mixtures thereof.Type: GrantFiled: March 15, 2002Date of Patent: December 19, 2006Assignee: TDA Research, Inc.Inventors: J. Michael Alford, Michael D. Diener
-
Patent number: 6923915Abstract: The invention generally relates to purification of carbon nanomaterials, particularly fullerenes, by removal of PAHs and other hydrocarbon impurities. The inventive process involves extracting a sample containing carbon nanomaterials with a solvent in which the PAHs are substantially soluble but in which the carbon nanomaterials are not substantially soluble. The sample can be repeatedly or continuously extracted with one or more solvents to remove a greater amount of impurities. Preferred solvents include ethanol, diethyl ether, and acetone. The invention also provides a process for efficiently separating solvent extractable fullerenes from samples containing fullerenes and PAHs wherein the sample is extracted with a solvent in which both fullerenes and PAHs are substantially soluble and the sample extract then undergoes selective extraction to remove PAHs. Suitable solvents in which both fullerenes and PAHs are soluble include o-xylene, toluene, and o-dichlorobenzene.Type: GrantFiled: August 30, 2002Date of Patent: August 2, 2005Assignee: TDA Research, Inc.Inventors: J. Michael Alford, Robert Bolskar
-
Patent number: 6887291Abstract: Filter devices and methods for collection of carbon nanomaterials, including fullerenes, produced in gas phase reactors are provided. The filter devices provide for in situ cleaning of filters to release captured product for collection. Product can be released and removed from the reactor without disrupting continuous synthesis of carbon nanomaterials. The filter devices facilitate increased reactor operation and larger scale production of carbon nanomaterials. The filters are cleaned by application of a motive force and/or a gas flow to the filter. In a specific embodiment filters are cleaned by a reverse flow of gas pulses to the filter provided. The invention also provides reactor systems for gas phase synthesis of carbon nanomaterials that can be operated continuously employing the filter device of this invention. Preferred reactor systems are those which synthesize carbon nanomaterials by combustion.Type: GrantFiled: March 15, 2002Date of Patent: May 3, 2005Assignee: TDA Research, Inc.Inventors: J. Michael Alford, Michael D. Diener
-
Publication number: 20050086087Abstract: The present invention relates to a system and methods for searching for and displaying travel itineraries and fares that satisfy a traveler's flexible travel requirements. Users may enter data relating to a trip's origin and destination as well as various dates the user can travel. The systems and methods locate multiple itineraries that cover the various dates on which the user can travel. The system and methods disclosed herein allow prospective travelers to efficiently identify which itineraries best meet their schedules and budgetary requirements.Type: ApplicationFiled: October 15, 2003Publication date: April 21, 2005Inventors: Anne Razza, Michael Alford, Gillian Tarinelli
-
Publication number: 20030220518Abstract: The invention provides improved therapeutic and diagnostic fullerenes and endohedral fullerenes. The fullerenes and endohedral fullerenes of the invention are derivatized with at least two charged functional groups (and preferably more than two charged functional groups) to provide for water-solubility and improved in vivo biodistribution. Improved derivatized fullerenes and endohedral fullerenes carry a plurality of functional groups at least two of which are charged. Preferably at least about ⅙ of the possible derivations sites on the fullerene caged carry derivatives and preferably at least about ½ of the functional groups on the fullerene cage are charged groups. The invention also provides water-soluble endohedral metallofullerene with improved biodistribution which are useful as in vivo imaging agents, including MRI contrast agents.Type: ApplicationFiled: April 9, 2003Publication date: November 27, 2003Inventors: Robert D. Bolskar, J. Michael Alford
-
Publication number: 20030157016Abstract: The invention provides a method of separating a first and a second set of fullerenes in a fullerene mixture. In the method of the invention, a stable fullerene cation is formed of one of the first or the second set of fullerenes. The fullerene cation is then separated from the other set of fullerenes. Optionally, the fullerene cation may be returned to its neutral state. The method of the invention is particularly useful for the purification and separation of endohedral fullerenes from empty fullerenes. However, the method may be applied to the purification of a broad range of endohedral and empty fullerene materials.Type: ApplicationFiled: October 1, 2002Publication date: August 21, 2003Inventors: Robert D. Bolskar, J. Michael Alford
-
Publication number: 20030143151Abstract: The present invention provides a combustion apparatus for the production of carbon nanomaterials including fullerenes and fullerenic soot. Most generally the combustion apparatus comprises one or more inlets for introducing an oxygen-containing gas and a hydrocarbon fuel gas in the combustion system such that a flame can be established from the mixed gases, a droplet delivery apparatus for introducing droplets of a liquid hydrocarbon feedstock into the flame, and a collector apparatus for collecting condensable products containing carbon nanomaterials that are generated in the combustion system. The combustion system optionally has a reaction zone downstream of the flame. If this reaction zone is present the hydrocarbon feedstock can be introduced into the flame, the reaction zone or both.Type: ApplicationFiled: November 27, 2002Publication date: July 31, 2003Inventors: Michael D. Diener, J. Michael Alford, James Nabity
-
Publication number: 20030065206Abstract: This invention provides improved methods for the derivatization and solubilization of fullerenes, which are particularly useful for those fullerenes that are normally insoluble and which are specifically applied, among others, to endohedral fullerenes, including endohedral metallofullerenes; empty fullerenes, including small-bandgap fullerenes and other insoluble fullerenes and to very high molecular weight fullerenic materials generated in fullerenic soot, including giant fullerenes, fullerenic polymers, carbon nanotubes and metal-carbon nanoencapsulates. More specifically the invention relates to improved methods for cyclopropanation of fullerenes. Specific reaction conditions are provided which allow for cyclopropanation reactions to be successfully performed for the first time on insoluble classes of fullerenes.Type: ApplicationFiled: October 1, 2002Publication date: April 3, 2003Inventors: Robert D. Bolskar, J. Michael Alford
-
Publication number: 20030049195Abstract: This invention provides improved methods for combustion synthesis of carbon nanomaterials, including fullerenes, employing multiple-ring aromatic hydrocarbon fuels selected for high carbon conversion to extractable fullerenes. The multiple-ring aromatic hydrocarbon fuels include those that contain polynuclear aromatic hydrocarbons. More specifically, multiple-ring aromatic hydrocarbon fuels contain a substantial amount of indene, methylnapthalenes or mixtures thereof. Coal tar and petroleum distillate fractions provide low cost hydrocarbon fuels containing polynuclear aromatic hydrocarbons, including without limitation, indene, methylnapthalenes or mixtures thereof.Type: ApplicationFiled: March 15, 2002Publication date: March 13, 2003Inventors: J. Michael Alford, Michael D. Diener
-
Publication number: 20030044341Abstract: The invention generally relates to purification of carbon nanomaterials, particularly fullerenes, by removal of PAHs and other hydrocarbon impurities. The inventive process involves extracting a sample containing carbon nanomaterials with a solvent in which the PAHs are substantially soluble but in which the carbon nanomaterials are not substantially soluble. The sample can be repeatedly or continuously extracted with one or more solvents to remove a greater amount of impurities. Preferred solvents include ethanol, diethyl ether, and acetone. The invention also provides a process for efficiently separating solvent extractable fullerenes from samples containing fullerenes and PAHs wherein the sample is extracted with a solvent in which both fullerenes and PAHs are substantially soluble and the sample extract then undergoes selective extraction to remove PAHs. Suitable solvents in which both fullerenes and PAHs are soluble include o-xylene, toluene, and o-dichlorobenzene.Type: ApplicationFiled: August 30, 2002Publication date: March 6, 2003Inventors: J. Michael Alford, Robert Bolskar
-
Publication number: 20030041732Abstract: Filter devices and methods for collection of carbon nanomaterials, including fullerenes, produced in gas phase reactors are provided. The filter devices provide for in situ cleaning of filters to release captured product for collection. Product can be released and removed from the reactor without disrupting continuous synthesis of carbon nanomaterials. The filter devices facilitate increased reactor operation and larger scale production of carbon nanomaterials. The filters are cleaned by application of a motive force and/or a gas flow to the filter. In a specific embodiment filters are cleaned by a reverse flow of gas pulses to the filter provided. The invention also provides reactor systems for gas phase synthesis of carbon nanomaterials that can be operated continuously employing the filter device of this invention. Preferred reactor systems are those which synthesize carbon nanomaterials by combustion.Type: ApplicationFiled: March 15, 2002Publication date: March 6, 2003Inventors: J. Michael Alford, Michael D. Diener
-
Patent number: RE38610Abstract: The present invention relates to a video display processor comprised apparatus for receiving digital input signal components of a signal to be displayed, apparatus for converting the components to a desired format, apparatus for scaling and blending the signals in the desired format, apparatus for outputting the scaled and blended signals for display or further processing, and an arbiter and local timing apparatus for controlling the apparatus substantially independently of a host CPU.Type: GrantFiled: August 11, 2000Date of Patent: October 5, 2004Assignee: ATI Technologies, Inc.Inventors: Sanford S. Lum, Keping Chen, Samuel L. C. Wong, Dwayne R. Bennett, Michael A. Alford