Patents by Inventor Brandon S. Farmer
Brandon S. Farmer 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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Publication number: 20230121522Abstract: A method of producing a polyimide polymer comprising reacting at least two dianyhydride monomers with at least two diamino monomers in a first solvent under conditions appropriate to form a polyamic acid and subsequently imidized through one or more methods to a polyimide polymer.Type: ApplicationFiled: October 14, 2022Publication date: April 20, 2023Inventors: Brandon S. Farmer, David L. Rodman, Lonnie F. Bradburn, JR., Rachel A. Farmer
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Patent number: 10967616Abstract: A protective film has a soluble polyimide polymer base layer and an exterior layer directly containing the base layer exterior surface. The base layer is less than 12 microns thick, and is at least 2 meters long. The exterior layer includes at least one of a fluorinated polymer, a dielectric layer, one or more metallic layers, a metalloid layer, or a plurality of dielectric layers where each dielectric layer has a dielectric layer thickness that varies no more than 3%. The exterior layer or the as layer can also include additives, as desired.Type: GrantFiled: March 18, 2013Date of Patent: April 6, 2021Assignee: NeXolve Holding Company, LLCInventors: James D. Moore, Brian G. Patrick, Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, Jr., Amy S. Davis
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Patent number: 9963578Abstract: Black polyimides polymer and a method of synthesizing the same have been developed. The black polyimide polymer includes at least one acid monomer, at least one diamino monomer and a solvent-soluble black dye. The acid and diamino monomers having been reacting in a solvent under suitable conditions to form a polyimide precursor polymer.Type: GrantFiled: July 17, 2013Date of Patent: May 8, 2018Assignee: NeXolve CorporationInventors: Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, Jr.
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Patent number: 9962866Abstract: A protective film has a soluble polyimide polymer base layer and an exterior layer directly contacting the base layer exterior surface. The base layer is less than 12 microns thick, and is at least 2 meters long. The exterior layer includes at least one of a fluorinated polymer, a dielectric layer, one or more metallic layers, a metalloid layer, or a plurality a dielectric layers where each dielectric layer has a dielectric layer thickness that varies no more than 3%. The exterior layer or the base layer can also include additives, as desired.Type: GrantFiled: August 12, 2013Date of Patent: May 8, 2018Assignee: NeXolve CorporationInventors: James D. Moore, Brian G. Patrick, Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, Amy S. Davis
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Publication number: 20170137593Abstract: The present disclosure provides a method of producing a aerogel comprising of reacting first monomer with a second monomer in a reaction solvent to form a composition comprising a precursor polymer; forming a gel; conducting a solvent exchange process on the gel such that the resulting gel comprises an exchange solvent that has a freezing point; cooling the gel to a temperature below the freezing point of the exchange solvent; and subjecting the cooled gel to vacuum conditions to obtain the aerogel.Type: ApplicationFiled: January 27, 2017Publication date: May 18, 2017Inventors: David L. Rodman, Garrett D. Poe, Brandon S. Farmer, Joseph C. Smith
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Patent number: 9562141Abstract: The present disclosure provides a method for producing an aerogel, the method comprising reacting at least one acid monomer with at least one diamino monomer in a first solvent under conditions appropriate to form a polyimide polymer; conducting a solvent exchange wherein the first solvent is exchanged for a second solvent, said second solvent having a freezing point, wherein said solvent exchange further comprises (1) submersing the polyimide polymer in the second solvent in a pressure vessel and (2) creating a high pressure environment inside the pressure vessel for a first period of time; cooling the polyimide polymer to a first temperature below the freezing point of the second solvent; and subjecting cooled polyimide polymer to a first vacuum for a second period of time at a second temperature.Type: GrantFiled: November 24, 2015Date of Patent: February 7, 2017Assignee: NEXOLVED CORPORATIONInventors: David L. Rodman, Garrett D. Poe, Brandon S. Farmer, Joseph C. Smith
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Publication number: 20160075847Abstract: The present disclosure provides a method for producing an aerogel, the method comprising reacting at least one acid monomer with at least one diamino monomer in a first solvent under conditions appropriate to form a polyimide polymer; conducting a solvent exchange wherein the first solvent is exchanged for a second solvent, said second solvent having a freezing point, wherein said solvent exchange further comprises (1) submersing the polyimide polymer in the second solvent in a pressure vessel and (2) creating a high pressure environment inside the pressure vessel for a first period of time; cooling the polyimide polymer to a first temperature below the freezing point of the second solvent; and subjecting cooled polyimide polymer to a first vacuum for a second period of time at a second temperature.Type: ApplicationFiled: November 24, 2015Publication date: March 17, 2016Inventors: David L. Rodman, Garrett D. Poe, Brandon S. Farmer, Joseph C. Smith
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Patent number: 9206298Abstract: The present disclosure provides a method for producing an aerogel, the method comprising reacting at least one acid monomer with at least one diamino monomer in a first solvent under conditions appropriate to form a polyimide polymer; conducting a solvent exchange wherein the first solvent is exchanged for a second solvent, said second solvent having a freezing point, wherein said solvent exchange further comprises (1) submersing the polyimide polymer in the second solvent in a pressure vessel and (2) creating a high pressure environment inside the pressure vessel for a first period of time; cooling the polyimide polymer to a first temperature below the freezing point of the second solvent; and subjecting cooled polyimide polymer to a first vacuum for a second period of time at a second temperature.Type: GrantFiled: May 23, 2013Date of Patent: December 8, 2015Assignee: NeXolve CorporationInventors: David L. Rodman, Garrett D. Poe, Brandon S. Farmer, Joseph C. Smith
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Publication number: 20150025192Abstract: Black polyimides polymer and a method of synthesizing the same have been developed. The black polyimide polymer includes at least one acid monomer, at least one diamino monomer and a solvent-soluble black dye. The acid and diamino monomers having been reacting in a solvent under suitable conditions to form a polyimide precursor polymer.Type: ApplicationFiled: July 17, 2013Publication date: January 22, 2015Applicant: NeXolve CorporationInventors: Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, JR.
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Publication number: 20140350134Abstract: The present disclosure provides a method for producing an aerogel, the method comprising reacting at least one acid monomer with at least one diamino monomer in a first solvent under conditions appropriate to form a polyimide polymer; conducting a solvent exchange wherein the first solvent is exchanged for a second solvent, said second solvent having a freezing point, wherein said solvent exchange further comprises (1) submersing the polyimide polymer in the second solvent in a pressure vessel and (2) creating a high pressure environment inside the pressure vessel for a first period of time; cooling the polyimide polymer to a first temperature below the freezing point of the second solvent; and subjecting cooled polyimide polymer to a first vacuum for a second period of time at a second temperature.Type: ApplicationFiled: May 23, 2013Publication date: November 27, 2014Inventors: David L. Rodman, Garrett D. Poe, Brandon S. Farmer, Joseph C. Smith
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Publication number: 20130328235Abstract: A protective film has a soluble polyimide polymer base layer and an exterior layer directly contacting the base layer exterior surface. The base layer is less than 12 microns thick, and is at least 2 meters long. The exterior layer includes at least one of a fluorinated polymer, a dielectric layer, one or more metallic layers, a metalloid layer, or a plurality a dielectric layers where each dielectric layer has a dielectric layer thickness that varies no more than 3%. The exterior layer or the base layer can also include additives, as desired.Type: ApplicationFiled: August 12, 2013Publication date: December 12, 2013Applicant: Nexolve CorporationInventors: James D. Moore, Brian G. Patrick, Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, JR., Amy S. Davis
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Publication number: 20130323480Abstract: A protective film has a soluble polyimide polymer base layer and an exterior layer directly containing the base layer exterior surface. The base layer is less than 12 microns thick, and is at least 2 meters long. The exterior layer includes at least one of a fluorinated polymer, a dielectric layer, one or more metallic layers, a metalloid layer, or a plurality of dielectric layers where each dielectric layer has a dielectric layer thickness that varies no more than 3%. The exterior layer or the as layer can also include additives, as desired.Type: ApplicationFiled: March 18, 2013Publication date: December 5, 2013Applicant: NeXolve CorporationInventors: James D. Moore, Brian G. Patrick, Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, JR., Amy S. Davis
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Patent number: 8506741Abstract: A protective film has a soluble polyimide polymer base layer and an exterior layer directly contacting the base layer exterior surface. The base layer is less than 12 microns thick, and is at least 2 meters long. The exterior layer includes at least one of a fluorinated polymer, a dielectric layer, one or more metallic layers, a metalloid layer, or a plurality of dielectric layers where each dielectric layer has a dielectric layer thickness that varies no more than 3%. The exterior layer or the base layer can also include additives, as desired.Type: GrantFiled: March 29, 2011Date of Patent: August 13, 2013Assignee: NeXolve CorporationInventors: James D. Moore, Brian G. Patrick, Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, Jr., Amy S. Davis
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Publication number: 20120251801Abstract: A protective film has a soluble polyimide polymer base layer and an exterior layer directly contacting the base layer exterior surface. The base layer is less than 12 microns thick, and is at least 2 meters long. The exterior layer includes at least one of a fluorinated polymer, a dielectric layer, one or more metallic layers, a metalloid layer, or a plurality of dielectric layers where each dielectric layer has a dielectric layer thickness that varies no more than 3%. The exterior layer or the base layer can also include additives, as desired.Type: ApplicationFiled: March 29, 2011Publication date: October 4, 2012Applicant: Nexolve CorporationInventors: James D. Moore, Brian G. Patrick, Brandon S. Farmer, Garrett D. Poe, David L. Rodman, Lonnie F. Bradburn, JR., Amy S. Davis
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Publication number: 20120190802Abstract: A process for adjusting polyimide polymer properties includes combining monomers in a reaction mass to form a polyimide precursor. A property modifying moiety which is covalently bonded to an amine is then added to the reaction mass, and the reaction between the amine bonded to the property modifying moiety and the polyimide precursor is arrested before equilibrium. The polyimide precursor is imidized to form a polyimide polymer prior to equilibrium.Type: ApplicationFiled: January 26, 2011Publication date: July 26, 2012Applicant: Nexolve CorporationInventors: Garrett D. Poe, Robert Henry, Lonnie F. Bradburn, JR., Brandon S. Farmer
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Publication number: 20090069508Abstract: A soluble polyimide polymer with tethered oligomeric silsesquioxane compounds is produced using efficient, gentle reactions. A carboxylic acid attachment point on the polymer backbone is used to connect the oligomeric silsesquioxane. The oligomeric silsesquioxane compound includes an amine or an alcohol on an organic tether, which reacts with the carboxylic acid attachment point to produce either an amide or an ester bond. The amide or ester bond includes a carbonyl carbon directly connected to a phenyl group in the polymer backbone. The resultant polyimide polymer has many beneficial properties.Type: ApplicationFiled: January 11, 2008Publication date: March 12, 2009Applicant: ManTech SRS Technologies, Inc.Inventors: Garrett D. Poe, Brandon S. Farmer