Patents by Inventor Stefanie Sharp-Goldman

Stefanie Sharp-Goldman 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).

  • Publication number: 20190044191
    Abstract: The present invention provides rechargeable electrochemical cells comprising a molten anode, a cathode, and a non-aqueous electrolyte salt, wherein the electrolyte salt is situated between the molten anode and the cathode during the operation of the electrochemical cell, and the molten anode comprises an aluminum material; also provided are batteries comprising a plurality of such rechargeable electrochemical cells and processes for manufacturing such rechargeable electrochemical cells.
    Type: Application
    Filed: October 8, 2018
    Publication date: February 7, 2019
    Inventors: Steven Amendola, Stefanie Sharp-Goldman
  • Publication number: 20180366799
    Abstract: The invention provides for a fully electrically rechargeable metal-air battery systems and methods of achieving such systems. A rechargeable metal air battery cell may comprise a metal electrode an air electrode, and an aqueous electrolyte separating the metal electrode and the air electrode. In some embodiments, the metal electrode may directly contact the electrolyte and no separator or porous membrane need be provided between the air electrode and the electrolyte. Rechargeable metal air battery cells may be electrically connected to one another through a centrode connection between a metal electrode of a first battery cell and an air electrode of a second battery cell. Air tunnels may be provided between individual metal air battery cells. In some embodiments, an electrolyte flow management system may be provided.
    Type: Application
    Filed: August 28, 2018
    Publication date: December 20, 2018
    Inventors: Steven Amendola, Lois Johnson, Michael Binder, Michael Kunz, Phillip J. Black, Michael Oster, Stefanie Sharp-Goldman, Tesia Chciuk, Regan Johnson
  • Patent number: 10128543
    Abstract: The present invention provides rechargeable electrochemical cells comprising a molten anode, a cathode, and a non-aqueous electrolyte salt, wherein the electrolyte salt is situated between the molten anode and the cathode during the operation of the electrochemical cell, and the molten anode comprises an aluminum material; also provided are batteries comprising a plurality of such rechargeable electrochemical cells and processes for manufacturing such rechargeable electrochemical cells.
    Type: Grant
    Filed: July 7, 2014
    Date of Patent: November 13, 2018
    Assignee: Eos Energy Storage, LLC
    Inventors: Steven Amendola, Stefanie Sharp-Goldman
  • Publication number: 20180183110
    Abstract: The present invention provides a novel electrochemical cell that comprises a cathode, an anode, and an electrolyte, where an ion species present in the electrolyte intercalates into the cathode upon discharge of the electrochemical cell.
    Type: Application
    Filed: February 14, 2018
    Publication date: June 28, 2018
    Inventors: George W. Adamson, Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson
  • Patent number: 9680193
    Abstract: The invention provides for a fully electrically rechargeable metal anode battery systems and methods of achieving such systems. An electrically rechargeable metal anode cell may comprise a metal electrode, an air contacting electrode, and an aqueous electrolyte separating the metal electrode and the air contacting electrode. In some embodiments, the metal electrode may directly contact the liquid electrolyte and no separator or porous membrane is needed between the air contacting electrode and the electrolyte. Rechargeable metal anode cells may be electrically connected to one another through a centrode connection where a metal electrode of one cell and an air contacting electrode of a second cell are electrically connected. Air tunnels or pathways may be provided between individual metal anode cells arranged in a stack. In some embodiments, an electrolyte flow management system may also be provided to maintain liquid electrolyte at constant levels during charge and discharge cycles.
    Type: Grant
    Filed: December 14, 2012
    Date of Patent: June 13, 2017
    Assignee: Eos Energy Storage, LLC
    Inventors: Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson, Michael Kunz, Michael Oster, Tesia Chciuk, Regan Johnson
  • Publication number: 20170149095
    Abstract: The present invention provides rechargeable electrochemical cells comprising a molten anode, a cathode, and a non-aqueous electrolyte salt, wherein the electrolyte salt is situated between the molten anode and the cathode during the operation of the electrochemical cell, and the molten anode comprises an aluminum material; also provided are batteries comprising a plurality of such rechargeable electrochemical cells and processes for manufacturing such rechargeable electrochemical cells.
    Type: Application
    Filed: February 7, 2017
    Publication date: May 25, 2017
    Inventors: Steven Amendola, Stefanie Sharp-Goldman
  • Publication number: 20150244031
    Abstract: The present invention provides a novel electrochemical cell that comprises a cathode, an anode, and an electrolyte, where an ion species present in the electrolyte intercalates into the cathode upon discharge of the electrochemical cell.
    Type: Application
    Filed: January 24, 2013
    Publication date: August 27, 2015
    Applicant: Eos Energy Storage, LLC
    Inventors: George W. Adamson, Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson
  • Publication number: 20150010833
    Abstract: The invention provides for a fully electrically rechargeable metal anode battery systems and methods of achieving such systems. An electrically rechargeable metal anode cell may comprise a metal electrode, an air contacting electrode, and an aqueous electrolyte separating the metal electrode and the air contacting electrode. In some embodiments, the metal electrode may directly contact the liquid electrolyte and no separator or porous membrane is needed between the air contacting electrode and the electrolyte. Rechargeable metal anode cells may be electrically connected to one another through a centrode connection where a metal electrode of one cell and an air contacting electrode of a second cell are electrically connected. Air tunnels or pathways may be provided between individual metal anode cells arranged in a stack. In some embodiments, an electrolyte flow management system may also be provided to maintain liquid electrolyte at constant levels during charge and discharge cycles.
    Type: Application
    Filed: December 14, 2012
    Publication date: January 8, 2015
    Applicant: Eos Energy Storage, LLC
    Inventors: Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson, Michael Kunz, Michael Oster, Tesia Chciuk, Regan Johnson
  • Publication number: 20150010792
    Abstract: The present invention provides rechargeable electrochemical cells comprising a molten anode, a cathode, and a non-aqueous electrolyte salt, wherein the electrolyte salt is situated between the molten anode and the cathode during the operation of the electrochemical cell, and the molten anode comprises an aluminum material; also provided are batteries comprising a plurality of such rechargeable electrochemical cells and processes for manufacturing such rechargeable electrochemical cells.
    Type: Application
    Filed: July 7, 2014
    Publication date: January 8, 2015
    Inventors: Steven Amendola, Stefanie Sharp-Goldman
  • Patent number: 8802304
    Abstract: Performance, properties and stability of bifunctional air electrodes may be improved by using modified current collectors, and improving water wettability of air electrode structures. This invention provides information on creating non-corroding, electrically rechargeable, bifunctional air electrodes. In some embodiments, this bifunctional air electrode includes a corrosion-resistant outer layer and an electrically conductive inner layer. In some embodiments, this bifunctional air electrode includes titanium suboxides formed by reducing titanium dioxide. Titanium suboxides may be corrosion-resistant and electrically conductive.
    Type: Grant
    Filed: August 10, 2010
    Date of Patent: August 12, 2014
    Assignee: Eos Energy Storage, LLC
    Inventors: Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson, Michael Kunz, Michael Oster, Tesia Chciuk, Regan Johnson
  • Publication number: 20130209919
    Abstract: Performance, properties and stability of bifunctional air electrodes may be improved by using modified current collectors, and improving water wettability of air electrode structures. This invention provides information on creating non-corroding, electrically rechargeable, bifunctional air electrodes. In some embodiments, this bifunctional air electrode includes a corrosion-resistant outer layer and an electrically conductive inner layer. In some embodiments, this bifunctional air electrode includes titanium suboxides formed by reducing titanium dioxide. Titanium suboxides may be corrosion-resistant and electrically conductive.
    Type: Application
    Filed: August 9, 2011
    Publication date: August 15, 2013
    Applicant: Eos Energy Storage, LLC
    Inventors: Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson, Michael Kunz, Michael Oster, Tesia Chciuk, Regan Johnson
  • Publication number: 20130115531
    Abstract: The invention provides for a fully electrically rechargeable metal-air battery systems and methods of achieving such systems. A rechargeable metal air battery cell may comprise a metal electrode an air electrode, and an aqueous electrolyte separating the metal electrode and the air electrode. In some embodiments, the metal electrode may directly contact the electrolyte and no separator or porous membrane need be provided between the air electrode and the electrolyte. Rechargeable metal air battery cells may be electrically connected to one another through a centrode connection between a metal electrode of a first battery cell and an air electrode of a second battery cell. Air tunnels may be provided between individual metal air battery cells. In some embodiments, an electrolyte flow management system may be provided.
    Type: Application
    Filed: July 20, 2011
    Publication date: May 9, 2013
    Applicant: Eos Energy Storage, LLC
    Inventors: Steven Amendola, Lois Johnson, Michael Binder, Michael Kunz, Phillip J. Black, Michael Oster, Stefanie Sharp-Goldman, Tesia Chciuk, Regan Johnson
  • Publication number: 20120040254
    Abstract: Performance, properties and stability of bifunctional air electrodes may be improved by using modified current collectors, and improving water wettability of air electrode structures. This invention provides information on creating non-corroding, electrically rechargeable, bifunctional air electrodes. In some embodiments, this bifunctional air electrode includes a corrosion-resistant outer layer and an electrically conductive inner layer. In some embodiments, this bifunctional air electrode includes titanium suboxides formed by reducing titanium dioxide. Titanium suboxides may be corrosion-resistant and electrically conductive.
    Type: Application
    Filed: August 10, 2010
    Publication date: February 16, 2012
    Inventors: Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson, Michael Kunz, Michael Oster, Tesia Chciuk, Regan Johnson
  • Publication number: 20120021303
    Abstract: The invention provides for a fully electrically rechargeable metal-air battery systems and methods of achieving such systems. A rechargeable metal air battery cell may comprise a metal electrode an air electrode, and an aqueous electrolyte separating the metal electrode and the air electrode. In some embodiments, the metal electrode may directly contact the electrolyte and no separator or porous membrane need be provided between the air electrode and the electrolyte. Rechargeable metal air battery cells may be electrically connected to one another through a centrode connection between a metal electrode of a first battery cell and an air electrode of a second battery cell. Air tunnels may be provided between individual metal air battery cells. In some embodiments, an electrolyte flow management system may be provided.
    Type: Application
    Filed: July 21, 2010
    Publication date: January 26, 2012
    Inventors: Steven Amendola, Michael Binder, Phillip J. Black, Stefanie Sharp-Goldman, Lois Johnson, Michael Kunz, Michael Oster, Tesia Chciuk, Regan Johnson
  • Publication number: 20070217994
    Abstract: The present invention relates to a composition and method for storage and controlled release of hydrogen. In particular, the present invention relates to the use of borohydride based solutions as a hydrogen storage source and a catalyst system to release hydrogen therefrom.
    Type: Application
    Filed: March 19, 2007
    Publication date: September 20, 2007
    Inventors: Steven Amendola, Michael Binder, Stefanie Sharp-Goldman, Michael Kelly, Phillip Petillo
  • Patent number: 7108777
    Abstract: A process and electrolytic cell for reducing in an ionic alkali metal compound, the cell containing anode and cathode electrodes, by supplying an electrolyte containing the alkali metal compound to the cell, applying an electric voltage to the cell to reduce said alkali metal compound at the cathode, and passing hydrogen or a hydrogen containing gas to at least one electrode while the compound is reduced at the cathode.
    Type: Grant
    Filed: March 13, 2003
    Date of Patent: September 19, 2006
    Assignees: Millennium Cell, Inc., Air Products and Chemicals, Inc.
    Inventors: Jianguo Xu, Michael Kelly, Guido Pez, Ying Wu, Stefanie Sharp-Goldman
  • Publication number: 20060169593
    Abstract: A process and electrolytic cell for reducing in an ionic alkali metal compound, the cell containing anode and cathode electrodes, by supplying an electrolyte containing the alkali metal compound to the cell, applying an electric voltage to the cell to reduce said alkali metal compound at the cathode, and passing hydrogen or a hydrogen containing gas to at least one electrode while the compound is reduced at the cathode.
    Type: Application
    Filed: March 29, 2006
    Publication date: August 3, 2006
    Inventors: Jianguo Xu, Michael Kelly, Guido Pez, Ying Wu, Stefanie Sharp-Goldman
  • Publication number: 20040011662
    Abstract: A process and electrolytic cell for reducing in an ionic alkali metal compound, the cell containing anode and cathode electrodes, by supplying an electrolyte containing the alkali metal compound to the cell, applying an electric voltage to the cell to reduce said alkali metal compound at the cathode, and passing hydrogen or a hydrogen containing gas to at least one electrode while the compound is reduced at the cathode.
    Type: Application
    Filed: March 13, 2003
    Publication date: January 22, 2004
    Applicant: Millennium Cell, Inc.
    Inventors: Jianguo Xu, Michael Kelly, Guido Pez, Ying Wu, Stefanie Sharp-Goldman