Patents by Inventor Shane Ardo

Shane Ardo 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: 12528052
    Abstract: Described herein is an ion pump system implementing an electronic ratchet mechanism produced by modulating a spatially varying electric potential distribution that can result in a net ionic current and voltage. The ion pumping membrane system includes an ion-permeable layer that can also be integrated with ion-selective membranes. The electric potential distribution within the ion-permeable layer is modulated through external stimuli. When immersed in solution, ions within the ion-permeable layer experience a time varying, spatially asymmetric electric field distribution resulting in ratchet-driven direct ion pumping, which can be used in applications such as desalination.
    Type: Grant
    Filed: December 17, 2020
    Date of Patent: January 20, 2026
    Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
    Inventors: Shane Ardo, Gideon Segev, Francesca Toma, Joel Ager, Rylan Kautz, David Larson
  • Patent number: 12233381
    Abstract: Membranes for electrochemical technologies that operate at non-extreme acidic or basic conditions are described herein. The membrane can be a bipolar membrane having an anion-exchange layer, a cation-exchange layer, and a polymer layer containing a catalyst juxtaposed between the two layers. The catalyst can improve the rate for water dissociation and water formation at low applied bias thereby decreasing the overpotential and resistance for overall ion transport, especially when unequal pH values are used between the catholyte and anolyte.
    Type: Grant
    Filed: October 29, 2020
    Date of Patent: February 25, 2025
    Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
    Inventors: Shane Ardo, William White, Lawrence A. Renna, Rohit Bhide, Leanna Schulte, Gabriel S. Phun
  • Patent number: 12230486
    Abstract: Described herein is an ion pump system implementing an electronic ratchet mechanism produced by modulating a spatially varying electric potential distribution that can result in a net ionic current and voltage. The ion pumping membrane system includes an ion-permeable layer integrated with ion-selective membranes. The electric potential distribution within the ion-permeable layer is modulated through external stimuli. When immersed in solution, ions within the ion-permeable layer experience a time varying, spatially asymmetric electric field distribution resulting in ratchet-driven direction pumping, which can be used in applications such as desalination.
    Type: Grant
    Filed: June 19, 2020
    Date of Patent: February 18, 2025
    Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
    Inventors: Shane Ardo, Gideon Segev, Francesca Toma, Joel Ager, Rylan Kautz, David Larson
  • Publication number: 20240133051
    Abstract: Systems and methods for electrochemical hydrogen looping cells are described. Generating a pH swing can expedite carbon dioxide capture from oceanwater. Many embodiments implement electrochemical hydrogen looping cells that simultaneously produce acid via anodic hydrogen oxidation and base via cathodic hydrogen evolution to generate a pH change.
    Type: Application
    Filed: October 10, 2023
    Publication date: April 25, 2024
    Applicants: California Institute of Technology, The Regents of the University of California
    Inventors: Harry A. Atwater, Zachary Schiffer, Chengxiang Xiang, Shane Ardo
  • Patent number: 11912589
    Abstract: Photochemical energy conversion is more efficient when a single light-absorbing unit is split into multiple light-absorbing units (N) that are each 1/N as thick as the single light-absorbing unit and thus use the same amount of material as the single light-absorbing unit. For electrocatalytic parameters relevant to water electrolysis, the maximum efficiency for solar-to-fuel conversion from a 1.75 eV bandgap material increases from approximately 1% for a single light-absorbing unit to greater than 20% for 128 identical stacked light-absorbing units. Alterations in utilization of photons results in a better match of the light-absorber power output to the load of the chemical transformation and in the case of high-quality light-absorbers there is an added benefit from radiative coupling between the light-absorbing units via photon recycling.
    Type: Grant
    Filed: November 4, 2019
    Date of Patent: February 27, 2024
    Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
    Inventors: Shane Ardo, Samuel Thomas Keene, Gabriel S. Phun
  • Publication number: 20230390724
    Abstract: A photocatalyst suspension reactor for solar fuel formation. The reactor may comprise a shallow pool filled with a first portion of an electrolyte solution. The electrolyte solution may comprise a solvent, a plurality of redox shuttle molecules, and a plurality of photocatalyst particles. The reactor may further comprise a plurality of tubes disposed on a surface of the shallow pool, each tube of the plurality of tubes comprising an upper half and a lower half. The upper half may comprise a transparent material configured to be minimally permeable to hydrogen gas and oxygen gas. The lower half may be configured to be filled with a second portion of the electrolyte solution and comprises an ion bridge material permeable to the plurality of redox shuttle molecules and minimally permeable to the plurality of photocatalyst particles.
    Type: Application
    Filed: June 6, 2023
    Publication date: December 7, 2023
    Inventors: Shane Ardo, Daniel V. Esposito, Rohini Bala Chandran, Zijie Chen, Joseph Michael Mayer, Luisa Barrera, Zejie Chen, Brian D. James, Yaset Acevedo, Jennie Huya-Kouadio
  • Publication number: 20230358677
    Abstract: Systems and methods for sensing and measuring local pH, pOH, and other protonic species using reversible excited-state photoacids and photobases are described. Various reversible excited-state photoacids and/or photobases are described that through a dynamic sensing mechanism exhibit varied fluorescence or phosphorescence intensity based on local activity of protonic species. Photoacids and photobases can be used in combination with confocal fluorescent microscopy for quantifying local activity of protonic species.
    Type: Application
    Filed: April 19, 2023
    Publication date: November 9, 2023
    Applicants: California Institute of Technology, The Regents of the University of California
    Inventors: Annette Boehme, Alexandra J. Welch, Rohit Bhide, Cassidy Feltenberger, Shane Ardo, Harry A. Atwater, Dennis Tang
  • Patent number: 11673100
    Abstract: A photodialysis device that can desalinate saline streams is described herein. The device can have a desalination rate that is significantly faster than current solar thermal desalination technology. Salt is removed from water by passing ionic current derived from sunlight through this water using dye-sensitized membranes. The device can serve as a distributed, low-cost technology that can efficiently and effectively desalinate low salinity sources of water, which is particularly useful for agriculture and drinking water applications.
    Type: Grant
    Filed: March 27, 2019
    Date of Patent: June 13, 2023
    Assignees: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, NEW YORK UNIVERSITY
    Inventors: Shane Ardo, Eric Schwartz, Jingyuan Liu, Joseph M. Cardon, William White, Kevin Tkacz, Lawrence A. Renna, Miguel A. Modestino, Daniela Blanco, Leanna Schulte, Rohit Bhide, Ronald Reiter, Christopher D. Sanborn
  • Publication number: 20230107163
    Abstract: Systems and methods of gas-liquid contactors for direct ocean capture and/or direct air capture are described.
    Type: Application
    Filed: September 20, 2022
    Publication date: April 6, 2023
    Applicants: California Institute of Technology, The Regents of the University of California
    Inventors: Chengxiang Xiang, Shane Ardo, Leanna Schulte, Harry A. Atwater, Zejie Chen, Anastasiya Bender, Ibadillah A. Digdaya
  • Patent number: 11318424
    Abstract: Dye-sensitized ion-pumping membranes and methods of preparing said membranes are described herein. A regenerative and reversible photoactive dye is covalently-bonded to membrane or separator for ion-pumping. The photoactive dye-functionalized membranes can be arranged with other ion-exchange membranes, which serve as selective contacts to afford photovoltaic action and therefore form a power-producing membrane that pumps ions for use in driving an ion-exchange or ion-transport process, such as desalination and electrodialysis.
    Type: Grant
    Filed: September 7, 2017
    Date of Patent: May 3, 2022
    Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
    Inventors: Shane Ardo, William White, Christopher D. Sanborn, Joseph M. Cardon, Ronald S. Reiter, Eric Schwartz
  • Publication number: 20210187442
    Abstract: Described herein is an ion pump system implementing an electronic ratchet mechanism produced by modulating a spatially varying electric potential distribution that can result in a net ionic current and voltage. The ion pumping membrane system includes an ion-permeable layer that can also be integrated with ion-selective membranes. The electric potential distribution within the ion-permeable layer is modulated through external stimuli. When immersed in solution, ions within the ion-permeable layer experience a time varying, spatially asymmetric electric field distribution resulting in ratchet-driven direct ion pumping, which can be used in applications such as desalination.
    Type: Application
    Filed: December 17, 2020
    Publication date: June 24, 2021
    Inventors: Shane Ardo, Gideon Segev, Francesca Toma, Joel Ager, Rylan Kautz, David Larson
  • Publication number: 20210046423
    Abstract: Membranes for electrochemical technologies that operate at non-extreme acidic or basic conditions are described herein. The membrane can be a bipolar membrane having an anion-exchange layer, a cation-exchange layer, and a polymer layer containing a catalyst juxtaposed between the two layers. The catalyst can improve the rate for water dissociation and water formation at low applied bias thereby decreasing the overpotential and resistance for overall ion transport, especially when unequal pH values are used between the catholyte and anolyte.
    Type: Application
    Filed: October 29, 2020
    Publication date: February 18, 2021
    Inventors: Shane Ardo, William White, Lawrence A. Renna, Rohit Bhide, Leanna Schulte, Gabriel S. Phun
  • Publication number: 20200402782
    Abstract: Described herein is an ion pump system implementing an electronic ratchet mechanism produced by modulating a spatially varying electric potential distribution that can result in a net ionic current and voltage. The ion pumping membrane system includes an ion-permeable layer integrated with ion-selective membranes. The electric potential distribution within the ion-permeable layer is modulated through external stimuli. When immersed in solution, ions within the ion-permeable layer experience a time varying, spatially asymmetric electric field distribution resulting in ratchet-driven direction pumping, which can be used in applications such as desalination.
    Type: Application
    Filed: June 19, 2020
    Publication date: December 24, 2020
    Inventors: Shane Ardo, Gideon Segev, Francesca Toma, Joel Ager, Rylan Kautz, David Larson
  • Publication number: 20200140293
    Abstract: Photochemical energy conversion is more efficient when a single light-absorbing unit is split into multiple light-absorbing units (N) that are each 1/N as thick as the single light-absorbing unit and thus use the same amount of material as the single light-absorbing unit. For electrocatalytic parameters relevant to water electrolysis, the maximum efficiency for solar-to-fuel conversion from a 1.75 eV bandgap material increases from approximately 1% for a single light-absorbing unit to greater than 20% for 128 identical stacked light-absorbing units. Alterations in utilization of photons results in a better match of the light-absorber power output to the load of the chemical transformation and in the case of high-quality light-absorbers there is an added benefit from radiative coupling between the light-absorbing units via photon recycling.
    Type: Application
    Filed: November 4, 2019
    Publication date: May 7, 2020
    Inventors: Shane Ardo, Samuel Thomas Keene, Gabriel S. Phun
  • Publication number: 20190217255
    Abstract: A photodialysis device that can desalinate saline streams is described herein. The device can have a desalination rate that is significantly faster than current solar thermal desalination technology. Salt is removed from water by passing ionic current derived from sunlight through this water using dye-sensitized membranes. The device can serve as a distributed, low-cost technology that can efficiently and effectively desalinate low salinity sources of water, which is particularly useful for agriculture and drinking water applications.
    Type: Application
    Filed: March 27, 2019
    Publication date: July 18, 2019
    Inventors: Shane Ardo, Eric Schwartz, Jingyuan Liu, Joseph M. Cardon, William White, Kevin Tkacz, Lawrence A. Renna, Miguel A. Modestino, Daniela Blanco, Leanna Schulte, Rohit Bhide
  • Publication number: 20180219115
    Abstract: This disclosure relates to photovoltaic and photo-electrosynthetic cells, devices, methods of making and using the same.
    Type: Application
    Filed: March 22, 2018
    Publication date: August 2, 2018
    Inventors: Shane Ardo, Matthew Shaner, Robert Coridan, Nicholas C. Strandwitz, James R. McKone, Katherine Fountaine, Harry A. Atwater, Nathan S. Lewis
  • Patent number: 9947816
    Abstract: This disclosure relates to photovoltaic and photoelectrosynthetic cells, devices, methods of making and using the same.
    Type: Grant
    Filed: April 3, 2013
    Date of Patent: April 17, 2018
    Assignee: California Institute of Technology
    Inventors: Shane Ardo, Matthew Shaner, Robert Coridan, Nicholas C. Strandwitz, James R. McKone, Katherine Fountaine, Harry A. Atwater, Nathan S. Lewis
  • Publication number: 20180065095
    Abstract: Dye-sensitized ion-pumping membranes and methods of preparing said membranes are described herein. A regenerative and reversible photoactive dye is covalently-bonded to membrane or separator for ion-pumping. The photoactive dye-functionalized membranes can be arranged with other ion-exchange membranes, which serve as selective contacts to afford photovoltaic action and therefore form a power-producing membrane that pumps ions for use in driving an ion-exchange or ion-transport process, such as desalination and electrodialysis.
    Type: Application
    Filed: September 7, 2017
    Publication date: March 8, 2018
    Inventors: Shane Ardo, William White, Christopher D. Sanborn, Joseph M. Cardon, Ronald S. Reiter, Eric Schwartz
  • Patent number: 9540741
    Abstract: This disclosure relates to photovoltaic and photoelectrosynthetic cells, devices, methods of making and using the same.
    Type: Grant
    Filed: September 6, 2013
    Date of Patent: January 10, 2017
    Assignee: The California Institute of Technology
    Inventors: Shane Ardo, Nathan S. Lewis
  • Publication number: 20140061057
    Abstract: This disclosure relates to photovoltaic and photoelectrosynthetic cells, devices, methods of making and using the same.
    Type: Application
    Filed: September 6, 2013
    Publication date: March 6, 2014
    Inventors: Shane Ardo, Nathan S. Lewis