Patents by Inventor Shane Foister

Shane Foister 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: 11031606
    Abstract: An electrochemical cell includes an air electrode in flow communication with a storage tank containing an aqueous solution of hydrogen peroxide, a lithium electrode, a catalyst layer in contact with the air electrode or a gas diffusion layer associated with the air electrode, and a separator layer in contact with the lithium electrode and catalyst layer. The catalyst layer includes a catalyst for two electron reversible oxygen reduction. The catalyst comprises gold, and a cobalt coordination complex or polymer thereof. The cobalt coordination complex comprises a cobalt ion chelated by a tetradentate organic chelating ligand.
    Type: Grant
    Filed: November 22, 2019
    Date of Patent: June 8, 2021
    Assignee: University of Tennessee Research Foundation
    Inventors: Ming Qi, Thomas Zawodzinski, Shane Foister
  • Publication number: 20200168915
    Abstract: An electrochemical cell includes an air electrode in flow communication with a storage tank containing an aqueous solution of hydrogen peroxide, a lithium electrode, a catalyst layer in contact with the air electrode or a gas diffusion layer associated with the air electrode, and a separator layer in contact with the lithium electrode and catalyst layer. The catalyst layer includes a catalyst for two electron reversible oxygen reduction. The catalyst comprises gold, and a cobalt coordination complex or polymer thereof. The cobalt coordination complex comprises a cobalt ion chelated by a tetradentate organic chelating ligand.
    Type: Application
    Filed: November 22, 2019
    Publication date: May 28, 2020
    Inventors: Ming Qi, Thomas Zawodzinski, Shane Foister
  • Patent number: 10522842
    Abstract: A catalyst is provided for the two electron reduction of oxygen. The catalyst can be reversible or near-reversible. The catalyst comprises a gold and a cobalt coordination complex, i.e., N,N?-bis(salicylidene)ethylene-diaminocobalt (II) (cobalt salen) or a derivative thereof. The cobalt coordination complex can be polymerized to form a film, for example, via electropolymerization, to cover a gold surface. Also provided are metal-air batteries, fuel cells, and air electrodes that comprise the catalyst, as well as methods of using the catalyst, for example, to reduce oxygen and/or produce hydrogen peroxide.
    Type: Grant
    Filed: November 3, 2014
    Date of Patent: December 31, 2019
    Assignee: University of Tennessee Research Foundation
    Inventors: Ming Qi, Thomas Zawodzinski, Shane Foister
  • Publication number: 20190168170
    Abstract: An electrochemical device includes an anode, a cathode, and a separator interposed between the anode and cathode. The separator includes an anion conductive membrane having a porous substrate having hydrophilic moieties bonded thereto to increase water availability in a vicinity of ionogenic sites contributing to conductivity of the membrane in a presence of aqueous phases imbibed therein.
    Type: Application
    Filed: July 27, 2017
    Publication date: June 6, 2019
    Applicant: UNIVERSITY OF TENNESSEE RESEARCH FOUNDATION
    Inventors: Thomas ZAWODZINSKI, Shane FOISTER
  • Publication number: 20160308220
    Abstract: A catalyst is provided for the two electron reduction of oxygen. The catalyst can be reversible or near-reversible. The catalyst comprises a gold and a cobalt coordination complex, i.e., N,N?-bis(salicylidene)ethylene-diaminocobalt (II) (cobalt salen) or a derivative thereof. The cobalt coordination complex can be polymerized to form a film, for example, via electropolymerization, to cover a gold surface. Also provided are metal-air batteries, fuel cells, and air electrodes that comprise the catalyst, as well as methods of using the catalyst, for example, to reduce oxygen and/or produce hydrogen peroxide.
    Type: Application
    Filed: November 3, 2014
    Publication date: October 20, 2016
    Inventors: Ming QI, Thomas ZAWODZINSKI, Shane FOISTER
  • Patent number: 7713701
    Abstract: Methods and compositions are provided for forming complexes between dsDNA and novel DNA-binding polymers comprising N-terminal thiophene-containing moieties which exhibit selectivity for T-A base pairs. By appropriate choice of target sequences and DNA-binding polymers, complexes comprising polymer-DNA are obtained with high association constants. The formation of complexes can be used for identification of specific dsDNA sequences, for inhibiting gene transcription, and as a therapeutic for inhibiting proliferation of undesired cells or modulation of expression of specific genes.
    Type: Grant
    Filed: September 25, 2008
    Date of Patent: May 11, 2010
    Assignee: California Institute of Technology
    Inventors: Peter B. Dervan, Shane Foister, Raymond Doss, Michael A. Marques
  • Publication number: 20090155202
    Abstract: Methods and compositions are provided for forming complexes between dsDNA and novel DNA-binding polymers comprising N-terminal thiophene-containing moieties which exhibit selectivity for T-A base pairs. By appropriate choice of target sequences and DNA-binding polymers, complexes comprising polymer-DNA are obtained with high association constants. The formation of complexes can be used for identification of specific dsDNA sequences, for inhibiting gene transcription, and as a therapeutic for inhibiting proliferation of undesired cells or modulation of expression of specific genes.
    Type: Application
    Filed: September 25, 2008
    Publication date: June 18, 2009
    Inventors: Peter B. Dervan, Shane Foister, Raymond Doss, Michael A. Marques
  • Patent number: 7452730
    Abstract: Methods and compositions are provided for forming complexes between dsDNA and novel DNA-binding polymers comprising N-terminal thiophene-containing moieties which exhibit selectivity for T-A base pairs. By appropriate choice of target sequences and DNA-binding polymers, complexes comprising polymer-DNA are obtained with high association constants. The formation of complexes can be used for identification of specific dsDNA sequences, for inhibiting gene transcription, and as a therapeutic for inhibiting proliferation of undesired cells or modulation of expression of specific genes.
    Type: Grant
    Filed: January 18, 2005
    Date of Patent: November 18, 2008
    Assignee: California Institute of Technology
    Inventors: Peter B. Dervan, Shane Foister, Raymond Doss, Michael A. Marques
  • Publication number: 20060014163
    Abstract: Methods and compositions are provided for forming complexes between dsDNA and novel DNA-binding polymers comprising N-terminal thiophene-containing moieties which exhibit selectivity for T-A base pairs. By appropriate choice of target sequences and DNA-binding polymers, complexes comprising polymer-DNA are obtained with high association constants. The formation of complexes can be used for identification of specific dsDNA sequences, for inhibiting gene transcription, and as a therapeutic for inhibiting proliferation of undesired cells or modulation of expression of specific genes.
    Type: Application
    Filed: January 18, 2005
    Publication date: January 19, 2006
    Inventors: Peter Dervan, Shane Foister, Raymond Doss, Michael Marques