Patents by Inventor Boris Brudnik
Boris Brudnik 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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Patent number: 10903530Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.Type: GrantFiled: April 22, 2019Date of Patent: January 26, 2021Assignee: STOREDOT LTD.Inventors: David Jacob, Sergey Remizov, Nitzan Shadmi, Hani Farran, Daniel Aronov, Boris Brudnik
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Patent number: 10637039Abstract: Methods, stacks and electrochemical cells are provided, which improve production processes and yield flexible and durable electrode stacks. Methods comprise depositing an electrode slurry on a sacrificial film to form an electrode thereupon, wherein the electrode slurry comprises a first solvent, attaching (e.g., laminating) a current collector film, which is produced at least partly using a second solvent, onto the formed electrode, to yield a stack, wherein a binding strength of the electrode to the current collector film is higher than a binding strength of the electrode to the sacrificial film, and delaminating the sacrificial film from the electrode while maintaining the attachment of the electrode to the current collector film. Additional layers such as a cell separator and an additional electrode may be further attached using similar steps.Type: GrantFiled: May 7, 2018Date of Patent: April 28, 2020Assignee: Storedot Ltd.Inventors: Sergey Remizov, Boris Brudnik, David Jacob, Daniel Aronov
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Patent number: 10468727Abstract: Methods of making anode active materials include milling graphite particles with carbohydrate particles to yield graphite-carbohydrate particles, milling the particles with anode material and carbonizing to form composite anode material particles. The anode active materials thus producted are provided with an at least partially porous carbon-graphite coating with both electronic and ionic conductivity.Type: GrantFiled: January 28, 2019Date of Patent: November 5, 2019Assignee: StoreDot Ltd.Inventors: David Jacob, Sergey Remizov, Nitzan Shadmi, Hani Farran, Daniel Aronov, Boris Brudnik
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Publication number: 20190252738Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.Type: ApplicationFiled: April 22, 2019Publication date: August 15, 2019Applicant: StoreDot Ltd.Inventors: David JACOB, Sergey REMIZOV, Nitzan SHADMI, Hani FARRAN, Daniel ARONOV, Boris BRUDNIK
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Patent number: 10367193Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.Type: GrantFiled: January 9, 2019Date of Patent: July 30, 2019Assignee: StoreDot Ltd.Inventors: Doron Burshtain, Sergey Remizov, David Jacob, Nitzan Shadmi, Hani Farran, Leora Shapiro, Ohad Goldbart, Boris Brudnik, Carmit Ophir, Daniel Aronov
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Patent number: 10367191Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.Type: GrantFiled: April 6, 2017Date of Patent: July 30, 2019Assignee: StoreDot Ltd.Inventors: Doron Burshtain, Sergey Remizov, David Jacob, Nitzan Shadmi, Hani Farran, Leora Shapiro, Ohad Goldbart, Boris Brudnik, Carmit Ophir, Daniel Aronov
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Publication number: 20190157727Abstract: Methods of making anode active materials include milling graphite particles with carbohydrate particles to yield graphite-carbohydrate particles, milling the particles with anode material and carbonizing to form composite anode material particles. The anode active materials thus producted are provided with an at least partially porous carbon-graphite coating with both electronic and ionic conductivity.Type: ApplicationFiled: January 28, 2019Publication date: May 23, 2019Applicant: StoreDot Ltd.Inventors: David Jacob, Sergey Remizov, Nitzan Shadmi, Hani Farran, Daniel Aronov, Boris Brudnik
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Publication number: 20190148713Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.Type: ApplicationFiled: January 9, 2019Publication date: May 16, 2019Applicant: STOREDOT LTD.Inventors: Doron BURSHTAIN, Sergey REMIZOV, David JACOB, Nitzan SHADMI, Hani FARRAN, Leora SHAPIRO, Ohad GOLDBART, Boris BRUDNIK, Carmit OPHIR, Daniel ARONOV
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Publication number: 20180254471Abstract: Methods, stacks and electrochemical cells are provided, which improve production processes and yield flexible and durable electrode stacks. Methods comprise depositing an electrode slurry on a sacrificial film to form an electrode thereupon, wherein the electrode slurry comprises a first solvent, attaching (e.g., laminating) a current collector film, which is produced at least partly using a second solvent, onto the formed electrode, to yield a stack, wherein a binding strength of the electrode to the current collector film is higher than a binding strength of the electrode to the sacrificial film, and delaminating the sacrificial film from the electrode while maintaining the attachment of the electrode to the current collector film. Additional layers such as a cell separator and an additional electrode may be further attached using similar steps.Type: ApplicationFiled: May 7, 2018Publication date: September 6, 2018Applicant: StoreDot Ltd.Inventors: Sergey REMIZOV, Boris BRUDNIK, David JACOB, Daniel ARONOV
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Patent number: 9966591Abstract: Methods, stacks and electrochemical cells are provided, which improve production processes and yield flexible and durable electrode stacks. Methods comprise depositing an electrode slurry on a sacrificial film to form an electrode thereupon, wherein the electrode slurry comprises a first solvent, attaching (e.g., laminating) a current collector film, which is produced at least partly using a second solvent, onto the formed electrode, to yield a stack, wherein a binding strength of the electrode to the current collector film is higher than a binding strength of the electrode to the sacrificial film, and delaminating the sacrificial film from the electrode while maintaining the attachment of the electrode to the current collector film. Additional layers such as a cell separator and an additional electrode may be further attached using similar steps.Type: GrantFiled: February 14, 2017Date of Patent: May 8, 2018Assignee: StoreDot Ltd.Inventors: Sergey Remizov, Boris Brudnik, David Jacob, Daniel Aronov
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Publication number: 20170294643Abstract: Improved anodes and cells are provided, which enable fast charging rates with enhanced safety due to much reduced probability of metallization of lithium on the anode, preventing dendrite growth and related risks of fire or explosion. Anodes and/or electrolytes have buffering zones for partly reducing and gradually introducing lithium ions into the anode for lithiation, to prevent lithium ion accumulation at the anode electrolyte interface and consequent metallization and dendrite growth. Various anode active materials and combinations, modifications through nanoparticles and a range of coatings which implement the improved anodes are provided.Type: ApplicationFiled: April 6, 2017Publication date: October 12, 2017Inventors: Doron BURSHTAIN, Sergey Remizov, David Jacob, Nitzan Shadmi, Hani Farran, Leora Shapiro, Ohad Goldbart, Boris Brudnik, Carmit Ophir, Daniel Aronov
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Publication number: 20150083225Abstract: A photovoltaic dye cell including a cell housing having an at least partially transparent cell wall; an electrolyte, disposed within the housing, and containing a charge transfer species; an at least partially transparent electrically conductive layer disposed on a first interior surface of the cell wall, within the photovoltaic cell; an anode disposed on the electrically conductive layer, the anode including: (i) a sintered porous film containing sintered titania, the film disposed on a broad face of the electrically conductive layer, and adapted to make intimate contact with the electrolyte, and (ii) a dye, absorbed on a surface of the porous film, the dye and the porous film adapted to convert photons to electrons, by means of the charge transfer species; and a cathode disposed substantially opposite the anode, and including a catalytic surface disposed to contact the electrolyte; wherein the film has an overall average pore size (d50) falling within a range of 25 to 45 nanometers, contains less than 700 pType: ApplicationFiled: June 30, 2014Publication date: March 26, 2015Inventors: Barry Breen, Izhak Barzilay, Boris Brudnik, Jonathan R. Goldstein