Patents by Inventor John M. Gregoire
John M. Gregoire 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).
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Publication number: 20240181390Abstract: The present invention relates to a gas-sorption measurement device to characterize the gas binding and sorption capacity of a liquid sorbent, and methods of use thereof.Type: ApplicationFiled: December 5, 2023Publication date: June 6, 2024Inventors: John M. Gregoire, Ryan JR Jones
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Patent number: 11605746Abstract: A composition of matter includes an n-type semiconductor. At least a portion of the semiconductor has the crystal structure of the chemical compound represented by FeWO4. The portion of the semiconductor having the crystal structure of FeWO4 includes iron and tungsten. A photoanode can have a light-absorbing layer that includes or consists of the semiconductor. A solar fuels generator can include the photoanode.Type: GrantFiled: October 9, 2020Date of Patent: March 14, 2023Assignee: California Institute of TechnologyInventors: John M. Gregoire, Santosh Suram, Lan Zhou, Aniketa A. Shinde
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Patent number: 11493475Abstract: Methods and systems described herein concern machine-learning-assisted materials discovery. One embodiment selects a candidate sample set including a plurality of compositions and performs the following operations iteratively: (1) selects an acquisition sample set, (2) performs a dark electrocatalyst experiment or a photo-electrocatalyst experiment on the compositions in the acquisition sample set to determine one or more properties, (3) trains a machine learning model using the one or more properties, and (4) predicts, based at least in part on one or more outputs of the machine learning model, the one or more properties for one or more compositions in a test sample set including compositions on which an experiment has not yet been performed. When one or more predetermined termination criteria have been satisfied, the embodiment also identifies one or more compositions in the candidate sample set for which the one or more properties satisfy predetermined performance criteria.Type: GrantFiled: December 5, 2019Date of Patent: November 8, 2022Assignees: Toyota Research Institute, Inc., California Institute of TechnologyInventors: Santosh Suram, John M. Gregoire, Brian Rohr, Helge Stein
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Publication number: 20220056601Abstract: An oxygen evolution reaction catalyst is a ternary metal oxide that includes Mn and is represented by MnuSbvOw in the rutile crystal phase and MxMnyOz where M is selected from the group consisting of Ca, Ni, Sr, Zn, Mg, Ni, Ba, Co and where u/(u+v) is greater than 33%.Type: ApplicationFiled: May 24, 2021Publication date: February 24, 2022Inventors: John M Gregoire, Lan Zhou, Santosh K. Suram, Aniketa A. Shinde, Joel A. Haber, Dan W. Guevarra
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Patent number: 11047054Abstract: An oxygen evolution reaction catalyst is a ternary metal oxide that includes Mn and is represented by MnuSbvOw in the rutile crystal phase and MxMnyOz where M is selected from the group consisting of Ca, Ni, Sr, Zn, Mg, Ni, Ba, Co and where u/(u+v) is greater than 33%.Type: GrantFiled: April 19, 2018Date of Patent: June 29, 2021Assignee: California Institute of TechnologyInventors: John M Gregoire, Lan Zhou, Santosh K. Suram, Aniketa A. Shinde, Joel A. Haber, Dan W. Guevarra
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Publication number: 20210111290Abstract: A composition of matter includes an n-type semiconductor. At least a portion of the semiconductor has the crystal structure of the chemical compound represented by FeWO4. The portion of the semiconductor having the crystal structure of FeWO4 includes iron and tungsten. A photoanode can have a light-absorbing layer that includes or consists of the semiconductor. A solar fuels generator can include the photoanode.Type: ApplicationFiled: October 9, 2020Publication date: April 15, 2021Inventors: John M. Gregoire, Santosh Suram, Lan Zhou, Aniketa A. Shinde
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Publication number: 20200340941Abstract: Methods and systems described herein concern machine-learning-assisted materials discovery. One embodiment selects a candidate sample set including a plurality of compositions and performs the following operations iteratively: (1) selects an acquisition sample set, (2) performs a dark electrocatalyst experiment or a photo-electrocatalyst experiment on the compositions in the acquisition sample set to determine one or more properties, (3) trains a machine learning model using the one or more properties, and (4) predicts, based at least in part on one or more outputs of the machine learning model, the one or more properties for one or more compositions in a test sample set including compositions on which an experiment has not yet been performed. When one or more predetermined termination criteria have been satisfied, the embodiment also identifies one or more compositions in the candidate sample set for which the one or more properties satisfy predetermined performance criteria.Type: ApplicationFiled: December 5, 2019Publication date: October 29, 2020Inventors: Santosh Suram, John M. Gregoire, Brian Rohr, Helge Stein
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Patent number: 10598644Abstract: Various samples are generated on a substrate. The samples each includes or consists of one or more analytes. In some instances, the samples are generated through the use of gels or through vapor deposition techniques. The samples are used in an instrument for screening large numbers of analytes by locating the samples between a working electrode and a counter electrode assembly. The instrument also includes one or more light sources for illuminating each of the samples. The instrument is configured to measure the photocurrent formed through a sample as a result of the illumination of the sample.Type: GrantFiled: August 18, 2017Date of Patent: March 24, 2020Assignees: California Institute of Technology, The Regents of the University of CaliforniaInventors: John M. Gregoire, Jian Jin, Kevin S. Kan, Martin R. Marcin, Slobodan Mitrovic, Paul F. Newhouse, Santosh K. Suram, Chengxiang Xiang, Lan Zhou
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Publication number: 20180305831Abstract: An oxygen evolution reaction catalyst is a ternary metal oxide that includes Mn and is represented by MnuSbvOw in the rutile crystal phase and MxMnyOz where M is selected from the group consisting of Ca, Ni, Sr, Zn, Mg, Ni, Ba, Co and where u/(u+v) is greater than 33%.Type: ApplicationFiled: April 19, 2018Publication date: October 25, 2018Inventors: John M. Gregoire, Lan Zhou, Santosh K. Suram, Aniketa A. Shinde, Joel A. Haber, Dan W. Guevarra
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Publication number: 20180059078Abstract: Various samples are generated on a substrate. The samples each includes or consists of one or more analytes. In some instances, the samples are generated through the use of gels or through vapor deposition techniques. The samples are used in an instrument for screening large numbers of analytes by locating the samples between a working electrode and a counter electrode assembly. The instrument also includes one or more light sources for illuminating each of the samples. The instrument is configured to measure the photocurrent formed through a sample as a result of the illumination of the sample.Type: ApplicationFiled: August 18, 2017Publication date: March 1, 2018Inventors: John M. Gregoire, Jian Jin, Kevin S. Kan, Martin R. Marcin, Slobodan Mitrovic, Paul F. Newhouse, Santosh K. Suram, Chengxiang Xiang, Lan Zhou
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Patent number: 9778234Abstract: Various samples are generated on a substrate. The samples each includes or consists of one or more analytes. In some instances, the samples are generated through the use of gels or through vapor deposition techniques. The samples are used in an instrument for screening large numbers of analytes by locating the samples between a working electrode and a counter electrode assembly. The instrument also includes one or more light sources for illuminating each of the samples. The instrument is configured to measure the photocurrent formed through a sample as a result of the illumination of the sample.Type: GrantFiled: July 21, 2014Date of Patent: October 3, 2017Assignees: California Institute Of Technology, The Regents of the University of CaliforniaInventors: John M. Gregoire, Jian Jin, Kevin S. Kan, Martin R. Marcin, Slobodan Mitrovic, Paul F. Newhouse, Santosh K. Suram, Chengxiang Xiang, Lan Zhou
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Patent number: 9645109Abstract: Electrochemical or electrochemical and photochemical experiments are performed on a collection of samples by suspending a drop of electrolyte solution between an electrochemical experiment probe and one of the samples that serves as a test sample. During the electrochemical experiment, the electrolyte solution is added to the drop and an output solution is removed from the drop. The probe and collection of samples can be moved relative to one another so the probe can be scanned across the samples.Type: GrantFiled: April 10, 2015Date of Patent: May 9, 2017Assignees: California Institute of Technology, Lawrence Berkeley National LaboratoryInventors: Jian Jin, Chengxiang Xiang, John M. Gregoire, Aniketa A. Shinde, Dan W. Guevarra, Ryan J. Jones, Martin R. Marcin, Slobodan Mitrovic
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Patent number: 9435043Abstract: An Oxygen Evolution Reaction (OER) catalyst includes a metal oxide that includes oxygen, cerium, and one or more second metals. In some instances, the cerium is 10 to 80 molar % of the metals in the metal oxide and/or the catalyst includes two or more second metals. The OER catalyst can be included in or on an electrode. The electrode can be arranged in an oxygen evolution system such that the Oxygen Evolution Reaction occurs at the electrode.Type: GrantFiled: December 12, 2014Date of Patent: September 6, 2016Assignees: California Institute of Technology, The Regents of the University of CaliforniaInventors: Joel A. Haber, Jian Jin, Chengxiang Xiang, John M. Gregoire, Ryan J. Jones, Dan W. Guevarra, Aniketa A. Shinde
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Publication number: 20150292095Abstract: An Oxygen Evolution Reaction (OER) catalyst includes a metal oxide that includes oxygen, cerium, and one or more second metals. In some instances, the cerium is 10 to 80 molar % of the metals in the metal oxide and/or the catalyst includes two or more second metals. The OER catalyst can be included in or on an electrode. The electrode can be arranged in an oxygen evolution system such that the Oxygen Evolution Reaction occurs at the electrode.Type: ApplicationFiled: December 12, 2014Publication date: October 15, 2015Inventors: Joel A. Haber, Jian Jin, Chengxiang Xiang, John M. Gregoire, Ryan J. Jones, Dan W. Guevarra, Aniketa A. Shinde
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Publication number: 20150212036Abstract: Electrochemical or electrochemical and photochemical experiments are performed on a collection of samples by suspending a drop of electrolyte solution between an electrochemical experiment probe and one of the samples that serves as a test sample. During the electrochemical experiment, the electrolyte solution is added to the drop and an output solution is removed from the drop. The probe and collection of samples can be moved relative to one another so the probe can be scanned across the samples.Type: ApplicationFiled: April 10, 2015Publication date: July 30, 2015Inventors: Jian Jin, Chengxiang Xiang, John M. Gregoire, Aniketa A. Shinde, Dan W. Guevarra, Ryan J. Jones, Martin R. Marcin, Slobodan Mitrovic
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Publication number: 20150203974Abstract: Carbon dioxide reduction includes bonding CO2 with an activator so as to form an activated intermediate. An electrical potential is applied to the intermediate so as to cause reduction of the CO2 in the intermediate. The CO2 reduction generates an organic fuel and releases the activator from the intermediate. The use of the intermediate suppresses H+ reduction reactions that compete with generation of the desired fuel.Type: ApplicationFiled: January 22, 2015Publication date: July 23, 2015Inventors: Oana R. Luca, John M. Gregoire, Chengxiang Xiang, Robert Nielsen
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Publication number: 20150042352Abstract: Various samples are generated on a substrate. The samples each includes or consists of one or more analytes. In some instances, the samples are generated through the use of gels or through vapor deposition techniques. The samples are used in an instrument for screening large numbers of analytes by locating the samples between a working electrode and a counter electrode assembly. The instrument also includes one or more light sources for illuminating each of the samples. The instrument is configured to measure the photocurrent formed through a sample as a result of the illumination of the sample.Type: ApplicationFiled: July 21, 2014Publication date: February 12, 2015Inventors: John M. Gregoire, Jian Jin, Kevin S. Kan, Martin R. Marcin, Slobodan Mitrovic, Paul F. Newhouse, Santosh K. Suram, Chengxiang Xiang, Lan Zhou