Patents by Inventor Condell D. Doyle

Condell D. Doyle 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: 8362295
    Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
    Type: Grant
    Filed: January 8, 2009
    Date of Patent: January 29, 2013
    Assignee: William Marsh Rice University
    Inventors: James M. Tour, Howard K. Schmidt, Condell D. Doyle, Dmitry V. Kosynkin, Jay R. Lomeda
  • Patent number: 8183180
    Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
    Type: Grant
    Filed: July 8, 2010
    Date of Patent: May 22, 2012
    Assignee: William Marsh Rice University
    Inventors: James M. Tour, Howard K. Schmidt, Jay R. Lomeda, Dmitry V. Kosynkin, Condell D. Doyle
  • Publication number: 20110144386
    Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
    Type: Application
    Filed: January 8, 2009
    Publication date: June 16, 2011
    Applicant: William Marsh Rice University
    Inventors: James M. Tour, Howard K. Schmidt, Condell D. Doyle, Dmitry V. Kosynkin, Jay R. Lomeda
  • Publication number: 20110059871
    Abstract: Drilling fluids comprising graphenes and nanoplatelet additives and methods for production thereof are disclosed. Graphene includes graphite oxide, graphene oxide, chemically-converted graphene, and functionalized chemically-converted graphene. Derivatized graphenes and methods for production thereof are disclosed. The derivatized graphenes are prepared from a chemically-converted graphene through derivatization with a plurality of functional groups. Derivatization can be accomplished, for example, by reaction of a chemically-converted graphene with a diazonium species. Methods for preparation of graphite oxide are also disclosed.
    Type: Application
    Filed: July 8, 2010
    Publication date: March 10, 2011
    Applicant: William Marsh Rice University
    Inventors: James M. Tour, Howard K. Schmidt, Jay R. Lomeda, Dmitry V. Kosynkin, Condell D. Doyle
  • Patent number: 7704323
    Abstract: Work from several laboratories has shown that metal nanofilaments cause problems in some molecular electronics testbeds. A new testbed for exploring the electrical properties of single molecules has been developed to eliminate the possibility of metal nanofilament formation and to ensure that molecular effects are measured. This metal-free system uses single-crystal silicon and single-walled carbon nanotubes as electrodes for the molecular monolayer. A direct Si-arylcarbon grafting method is used. Use of this structure with ?-conjugated organic molecules results in a hysteresis loop with current-voltage measurements that are useful for an electronic memory device. The memory is non-volatile for more than 3 days, non-destructive for more than 1,000 reading operations and capable of more than 1,000 write-erase cycles before device breakdown.
    Type: Grant
    Filed: January 23, 2006
    Date of Patent: April 27, 2010
    Assignee: William Marsh Rice University
    Inventors: James M. Tour, Jianli He, Bo Chen, Austen K. Flatt, Jason J. Stephenson, Condell D. Doyle