Patents by Inventor Benjamin Hertzberg

Benjamin Hertzberg 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: 20190386348
    Abstract: The present invention provide a non-aqueous electrolyte for use in static or non-flowing rechargeable electrochemical cells or batteries, wherein the electrolyte comprises a first deep eutectic solvent comprises a zinc salt, a second deep eutectic solvent comprising one or more quaternary ammonium salts, and a hydrogen bond donor. Another aspect of the present invention also provides a non-flowing rechargeable electrochemical cell that employs the non-aqueous electrolyte of the present invention.
    Type: Application
    Filed: May 17, 2017
    Publication date: December 19, 2019
    Inventor: Benjamin Hertzberg
  • Publication number: 20190219547
    Abstract: Systems and methods for prediction of state of charge (SOH), state of health (SOC) and other characteristics of batteries using acoustic signals, includes determining acoustic data at two or more states of charge and determining a reduced acoustic data set representative of the acoustic data at the two or more states of charge. The reduced acoustic data set includes time of flight (TOF) shift, total signal amplitude, or other data points related to the states of charge. Machine learning models use at least the reduced acoustic dataset in conjunction with non-acoustic data such as voltage and temperature for predicting the characteristics of any other independent battery.
    Type: Application
    Filed: March 8, 2019
    Publication date: July 18, 2019
    Inventors: Daniel Artemis Steingart, Shoham Bhadra, Andrew Gaheem Hsieh, Benjamin Hertzberg, Peter James Gjeltema, Clarence Worth Rowley, III, Alexandre S.R. Goy, Jason Wolf Fleischer
  • Publication number: 20190064123
    Abstract: Systems and methods for prediction of state of charge (SOH), state of health (SOC) and other characteristics of batteries using acoustic signals, includes determining acoustic data at two or more states of charge and determining a reduced acoustic data set representative of the acoustic data at the two or more states of charge. The reduced acoustic data set includes time of flight (TOF) shift, total signal amplitude, or other data points related to the states of charge. Machine learning models use at least the reduced acoustic dataset in conjunction with non-acoustic data such as voltage and temperature for predicting the characteristics of any other independent battery.
    Type: Application
    Filed: October 3, 2018
    Publication date: February 28, 2019
    Inventors: Daniel Artemis Steingart, Shoham Bhadra, Andrew Gaheem Hsieh, Benjamin Hertzberg, Peter James Gjeltema, Clarence Worth Rowley, III, Alexandre S.R. Goy, Jason Wolf Fleischer
  • Patent number: 10132781
    Abstract: A method, an apparatus and a system for interrogating a battery in order to determine one or more of: (i) its state of charge (SOC), (ii) its state of health (SOH), (iii) physical state of one or more internal components or parts, which utilizes at least one sound source for transmitting a signal (e.g., a sound wave or sound pulse through or across the battery, and at least one sound receiver for receiving a signal from the battery, which received signal is representative of the physical state of the battery being interrogated. The interrogation method is noninvasive, namely does not require the depletion of a portion of the charge of the battery being tested or settlement or the destruction of the battery in order to evaluate one or more of (i), (ii) and (iii).
    Type: Grant
    Filed: January 30, 2015
    Date of Patent: November 20, 2018
    Assignee: The Trustees of Princeton University
    Inventors: Daniel Artemus Steingart, Shoham Bhadra, Andrew Hsieh, Benjamin Hertzberg, Peter James Gjeltema, Clarence Worth Rowley, III, Alexandre S. R. Goy, Jason Wolf Fleischer
  • Publication number: 20180083320
    Abstract: The invention provides an electrolyte composition which is adapted for use in a rechargeable alkaline electrochemical cell, and especially preferably adapted for use in a rechargeable manganese zinc electrochemical cell, which electrolyte composition imparts improved performance characteristics to the rechargeable alkaline electrochemical cell. The electrolyte composition includes an electrolyte composition in which contains a potassium hydroxide and lithium hydroxide in a concentration and a respective molar ratio of about 1 molar potassium hydroxide to 2.5-3.7 (preferably 1:3) molar lithium hydroxide (1 M KOH:2.5-3.7 M LiOH). Also provided are alkaline electrochemical cells and alkaline batteries comprising the electrolyte compositions. The resultant alkaline electrochemical cells and alkaline batteries exhibit improved performance characteristics, as the electrolyte composition significantly inhibits the passivation of Zn, and may also be useful in this role in other battery chemistries.
    Type: Application
    Filed: April 5, 2016
    Publication date: March 22, 2018
    Inventors: Daniel STEINGART, Benjamin HERTZBERG, Mylad CHAMOUN, Greg DAVIES, Ying Shirley MENG
  • Patent number: 9893354
    Abstract: Disclosed are hyper-dendritic nanoporous zinc foam electrodes, viz., anodes, methods of producing the same, and methods for their use in electrochemical cells, especially in rechargeable electrical batteries.
    Type: Grant
    Filed: February 22, 2016
    Date of Patent: February 13, 2018
    Assignee: THE TRUSTEES OF PRINCETON UNIVERSITY
    Inventors: Daniel A. Steingart, Mylad Chamoun, Benjamin Hertzberg, Greg Davies, Andrew G. Hsieh
  • Publication number: 20170271659
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Application
    Filed: June 2, 2017
    Publication date: September 21, 2017
    Applicants: Sila Nanotechnologies Inc., Georgia Tech Research Corporation
    Inventors: Gleb YUSHIN, Oleksandr MAGAZYNSKYY, Patrick DIXON, Benjamin HERTZBERG
  • Patent number: 9673448
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Grant
    Filed: October 14, 2014
    Date of Patent: June 6, 2017
    Assignees: Sila Nanotechnologies Inc., Georgia Tech Research Corporation
    Inventors: Gleb Yushin, Oleksandr Magazynskyy, Patrick Dixon, Benjamin Hertzberg
  • Publication number: 20170025677
    Abstract: Disclosed are hyper-dendritic nanoporous zinc foam electrodes, viz., anodes, methods of producing the same, and methods for their use in electrochemical cells, especially in rechargeable electrical batteries.
    Type: Application
    Filed: February 22, 2016
    Publication date: January 26, 2017
    Inventors: Daniel A. STEINGART, Mylad CHAMOUN, Benjamin HERTZBERG, Greg DAVIES, Andrew G. HSIEH
  • Publication number: 20160223498
    Abstract: A method, an apparatus and a system for interrogating a battery in order to determine one or more of: (i) its state of charge (SOC), (ii) its state of health (SOH), (iii) physical state of one or more internal components or parts, which utilizes at least one sound source means for transmitting a signal (e.g., a sound wave or sound pulse through or across the battery, and at least one sound receiver means for receiving a signal from the battery, which received signal is representative of the physical state of the battery being interrogated. The interrogation method is noninvasive, namely does not require the depletion of a portion of the charge of the battery being tested or settlement or the destruction of the battery in order to evaluate one or more of (i), (ii) and (iii).
    Type: Application
    Filed: January 30, 2015
    Publication date: August 4, 2016
    Inventors: Daniel Artemus STEINGART, Shoham BHADRA, Andrew HSIEH, Benjamin HERTZBERG, Peter James GJELTEMA, Clarence Worth ROWLEY, III
  • Patent number: 9373838
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Grant
    Filed: September 29, 2010
    Date of Patent: June 21, 2016
    Assignees: Georgia Tech Research Corporation, Sila Nanotechnologies, Inc.
    Inventors: Gleb Yushin, Oleksandr Magazynskyy, Patrick Dixon, Benjamin Hertzberg
  • Publication number: 20150162603
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Application
    Filed: October 14, 2014
    Publication date: June 11, 2015
    Applicants: GEORGIA TECH RESEARCH CORPORATION, SILA NANOTECHNOLOGIES, INC.
    Inventors: Gleb Yushin, Oleksandr MAGAZYNSKYY, Patrick DIXON, Benjamin HERTZBERG
  • Patent number: 8889295
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Grant
    Filed: March 27, 2012
    Date of Patent: November 18, 2014
    Assignees: Sila Nanotechnologies, Inc., Georgia Tech Research Corporation
    Inventors: Gleb Yushin, Oleksandr Magazynskyy, Patrick Dixon, Benjamin Hertzberg
  • Publication number: 20120328952
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Application
    Filed: March 27, 2012
    Publication date: December 27, 2012
    Inventors: Gleb Yushin, Oleksandr Magazynskyy, Patrick Dixon, Benjamin Hertzberg
  • Publication number: 20120321959
    Abstract: Described herein are improved composite anodes and lithium-ion batteries made therefrom. Further described are methods of making and using the improved anodes and batteries. In general, the anodes include a porous composite having a plurality of agglomerated nanocomposites. At least one of the plurality of agglomerated nanocomposites is formed from a dendritic particle, which is a three-dimensional, randomly-ordered assembly of nanoparticles of an electrically conducting material and a plurality of discrete non-porous nanoparticles of a non-carbon Group 4A element or mixture thereof disposed on a surface of the dendritic particle. At least one nanocomposite of the plurality of agglomerated nanocomposites has at least a portion of its dendritic particle in electrical communication with at least a portion of a dendritic particle of an adjacent nanocomposite in the plurality of agglomerated nanocomposites.
    Type: Application
    Filed: September 29, 2010
    Publication date: December 20, 2012
    Inventors: Gleb Yushin, Oleksandr Magazynskyy, Patrick Dixon, Benjamin Hertzberg
  • Patent number: D825506
    Type: Grant
    Filed: August 24, 2017
    Date of Patent: August 14, 2018
    Assignee: Eos Energy Storage, LLC
    Inventors: Tadeusz W. Langner, Connor Burke, Benjamin Hertzberg