Patents Assigned to Global Graphene Group, Inc.
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Publication number: 20230238575Abstract: A hybrid solid electrolyte particulate for use in a rechargeable lithium battery cell, wherein said particulate comprises one or more than one inorganic solid electrolyte particles encapsulated by a shell of elastic polymer electrolyte wherein (i) the hybrid solid electrolyte particulate has a lithium-ion conductivity from 10?6 S/cm to 5×10?2 S/cm and both the inorganic solid electrolyte and the elastic polymer electrolyte individually have a lithium-ion conductivity no less than 10?6 S/cm; (ii) the elastic polymer electrolyte-to-inorganic solid electrolyte ratio is from 1/100 to 100/1 or the elastic polymer electrolyte shell has a thickness from 1 nm to 10 ?m; and (iii) the elastic polymer electrolyte has a recoverable elastic tensile strain from 5% to 1,000%. Also provided is a lithium-ion or lithium metal cell containing multiple hybrid solid electrolyte particulates in the anode, cathode and/or the separator. Processes for producing hybrid solid electrolyte particulates are also disclosed.Type: ApplicationFiled: January 25, 2022Publication date: July 27, 2023Applicant: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Bor Z. Jang
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Publication number: 20230238571Abstract: A hybrid solid electrolyte particulate for use in a rechargeable lithium battery cell, wherein said particulate comprises one or more than one inorganic solid electrolyte particles encapsulated by a shell of conducting polymer electrolyte wherein (i) the hybrid solid electrolyte particulate has a lithium-ion conductivity from 10?6 S/cm to 5×10?2 S/cm and both the inorganic solid electrolyte and the conducting polymer electrolyte individually have a lithium-ion conductivity no less than 10?6 S/cm; (ii) the conducting polymer electrolyte has an electron conductivity no less than 10?6 S/cm; and (iii) the conducting polymer electrolyte-to-inorganic solid electrolyte ratio is from 1/100 to 100/1 or the conducting polymer electrolyte shell has a thickness from 1 nm to 10 ?m. Also provided is a lithium-ion or lithium metal cell containing multiple hybrid solid electrolyte particulates in the anode and/or the cathode. Processes for producing hybrid solid electrolyte particulates are also disclosed.Type: ApplicationFiled: January 27, 2022Publication date: July 27, 2023Applicant: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Bor Z. Jang
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Publication number: 20230231181Abstract: A hybrid solid electrolyte particulate (or multiple particulates) for use in a rechargeable lithium battery cell, wherein the particulate comprises one or more than one inorganic solid electrolyte particles encapsulated by a shell of polymer electrolyte wherein the hybrid solid electrolyte particulate has a lithium-ion conductivity from 10?6 S/cm to 5×10?2 S/cm and both the inorganic solid electrolyte and the polymer electrolyte individually have a lithium-ion conductivity no less than 1031 6 S/cm. Also provided is a lithium-ion or lithium metal cell containing multiple hybrid solid electrolyte particulates in the anode, cathode and/or the separator. Processes for producing hybrid solid electrolyte particulates are also disclosed.Type: ApplicationFiled: January 17, 2022Publication date: July 20, 2023Applicant: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Bor Z. Jang
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Patent number: 11699787Abstract: An electrochemical battery cell comprising an anode having a primary anode active material, a cathode, and an ion-conducting electrolyte, wherein the cell has an initial output voltage, Vi, measured at 10% depth of discharge (DoD), selected from a range from 0.3 volts to 0.8 volts, and a final output voltage Vf measured at a DoD no greater than 90%, wherein a voltage variation, (Vi?Vf)/Vi, is no greater than ±10% and the specific capacity between Vi and Vf is no less than 100 mAh/g or 200 mAh/cm3 based on the cathode active material weight or volume, and wherein the primary anode active material is selected from lithium (Li), sodium (Na), potassium (K), magnesium (Mg), aluminum (Al), zinc (Zn), titanium (Ti), manganese (Mn), iron (Fe), vanadium (V), cobalt (Co), nickel (Ni), a mixture thereof, an alloy thereof, or a combination thereof.Type: GrantFiled: December 15, 2020Date of Patent: July 11, 2023Assignee: Global Graphene Group, Inc.Inventors: Yu-Sheng Su, Minjie Li, Hui He, Qing Fang, Aruna Zhamu, Bor Z. Jang
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Patent number: 11680173Abstract: Provided is a graphene-based aqueous coating suspension comprising multiple graphene sheets, particles of an anti-corrosive pigment or sacrificial metal, and a waterborne binder resin dissolved or dispersed in water, wherein the multiple graphene sheets contain single-layer or few-layer graphene sheets selected from a pristine graphene material having essentially zero % of non-carbon elements, or a non-pristine graphene material having 0.001% to 47% by weight of non-carbon elements wherein the non-pristine graphene is selected from graphene oxide, reduced graphene oxide, graphene fluoride, graphene chloride, graphene bromide, graphene iodide, hydrogenated graphene, nitrogenated graphene, doped graphene, chemically functionalized graphene, or a combination thereof and wherein the coating suspension does not contain a silicate binder or microspheres dispersed therein. Also provided is an object or structure coated at least in part with such a coating.Type: GrantFiled: May 7, 2018Date of Patent: June 20, 2023Assignee: Global Graphene Group, Inc.Inventors: Fan-Chun Meng, Yi-jun Lin, Shaio-yen Lee, Wen Y. Chiu, Aruna Zhamu, Bor Z. Jang
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Patent number: 11677105Abstract: Provided is a rechargeable battery system comprising at least a battery cell and an external cooling means, wherein the battery cell comprises an anode, a cathode, an electrolyte disposed between the anode and the cathode, a protective housing that at least partially encloses the anode, the cathode and the electrolyte, and at least one heat-spreader element disposed partially or entirely inside the protective housing and wherein the external cooling means is in thermal contact with the heat spreader element configured to enable transporting internal heat of the battery through the heat spreader element to the external cooling means. Also provided is a method of operating a rechargeable battery system, the method comprising implementing a heat spreader element in one or each of a plurality of battery cells and bringing the heat spreader element in thermal contact with one or a plurality of external cooling means.Type: GrantFiled: July 18, 2019Date of Patent: June 13, 2023Assignee: Global Graphene Group, Inc.Inventors: Hao-Hsun Chang, Yu-Ming Chen, Yu-Sheng Su, Bor Z. Jang
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Patent number: 11677101Abstract: A lithium secondary battery comprising a cathode, an anode, and an elastic polymer protective layer disposed between the cathode and the anode, and a working electrolyte, wherein the elastic polymer protective layer comprises a high-elasticity polymer having a thickness from 50 nm to 100 ?m, a lithium ion conductivity from 10?8 S/cm to 5×10?2 S/cm at room temperature, and a fully recoverable tensile elastic strain from 2% to 1,000% when measured without any additive or filler dispersed therein and wherein the high-elasticity polymer comprises a crosslinked polymer network of chains derived from at least one multi-functional monomer or oligomer selected from an acrylate, polyether, polyurethane acrylate, tetraethylene glycol diacrylate, triethylene glycol dimethacrylate, or di(trimethylolpropane) tetraacrylate, wherein a multi-functional monomer or oligomer comprises at least three reactive functional groups.Type: GrantFiled: January 12, 2021Date of Patent: June 13, 2023Assignee: Global Graphene Group, Inc.Inventors: Hui He, Lu Zhang, Bor Z. Jang
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Publication number: 20230170482Abstract: An anode active material layer for a lithium battery, the layer comprising multiple anode active material particles and a conductive additive that are protected by (embedded in and bonded by) a matrix resin comprising an ion-conducting elastomer or rubber having a recoverable tensile strain from 5% to 700% when measured without an additive or reinforcement in the polymer and a lithium ion conductivity no less than 10?6 S/cm at room temperature. The amount of conductive additive is preferably sufficient to form a 3D network of electron-conducing pathways that are in electrical contact with the anode material particles. Such an elastomeric or rubbery matrix also acts to maintain the structural integrity of the anode electrode, preventing interruption of the electron- and lithium ion-conducting pathways when the anode active material particles repeatedly expand and shrink in volume during battery cycling.Type: ApplicationFiled: December 1, 2021Publication date: June 1, 2023Applicant: Global Graphene Group, Inc.Inventors: Xingxing Zhang, Bor Z. Jang
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Lithium metal secondary battery containing a conducting polymer network-based anode-protecting layer
Patent number: 11658290Abstract: Provided is a lithium metal secondary battery comprising a cathode, an anode, an electrolyte-separator assembly disposed between the cathode and the anode, wherein the anode comprises: (a) an anode active material layer containing a layer of lithium or lithium alloy optionally supported by an anode current collector; and (b) an anode-protecting layer in physical contact with the anode active material layer and in ionic contact with the electrolyte-separator assembly, having a thickness from 10 nm to 500 ?m and comprising an electrically and ionically conducting network of cross-linked conjugated polymer chains having a lithium ion conductivity from 10?8 to 5×10?2 S/cm and an electron conductivity from 10?8 to 103 S/cm.Type: GrantFiled: May 6, 2019Date of Patent: May 23, 2023Assignee: Global Graphene Group, Inc.Inventor: Bor Z. Jang -
Patent number: 11652211Abstract: A method of producing a powder mass for a lithium battery, the method comprising: (a) providing a solution containing a sulfonated elastomer dissolved in a solvent or a precursor in a liquid form or dissolved in a solvent; (b) dispersing a plurality of particles of a cathode active material in the solution to form a slurry; and (c) dispensing the slurry and removing the solvent and/or polymerizing/curing the precursor to form the powder mass, wherein the powder mass comprises multiple particulates and at least a particulate comprises one or a plurality of particles of a cathode active material being encapsulated by a thin layer of sulfonated elastomer having a thickness from 1 nm to 10 ?m, a fully recoverable tensile strain from 2% to 800%, and a lithium ion conductivity from 10?7 S/cm to 5×10?2 S/cm at room temperature.Type: GrantFiled: December 28, 2021Date of Patent: May 16, 2023Assignee: Global Graphene Group, Inc.Inventors: Baofei Pan, Hui He, Bor Z. Jang
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Patent number: 11641012Abstract: A process for producing a graphene/Si nanowire hybrid material, comprising: (a) dispersing catalyst metal-coated Si particles, graphene sheets, and an optional blowing agent in a liquid medium to form a graphene/Si dispersion; (b) dispensing and depositing the dispersion onto a supporting substrate to form a wet layer and removing the liquid medium from the wet layer to form a dried layer of graphene/Si mixture material; (c) exposing the dried layer to a high temperature environment, from 300° C. to 2,000° C., to induce volatile gas molecules from graphene sheets or to activate the blowing agent for producing the graphene foam and to enable a catalyst metal-catalyzed growth of multiple Si nanowires emanated from Si particles as a feed material in pores of the foam to form a layer of the hybrid material; and (d) operating a mechanical breaking means to produce the Si nanowire/graphene hybrid material in a powder mass form.Type: GrantFiled: January 14, 2019Date of Patent: May 2, 2023Assignee: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Yu-Sheng Su, Jun Yin, Bor Z. Jang
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Patent number: 11637329Abstract: A lithium secondary battery comprising a cathode, an anode, and an elastic polymer protective layer disposed between the cathode and the anode, and a working electrolyte in ionic communication with the anode and the cathode, wherein the elastic polymer protective layer comprises a high-elasticity polymer having a thickness from 2 nm to 200 ?m, a lithium ion conductivity from 10?8 S/cm to 5×10?2 S/cm at room temperature, and a fully recoverable tensile elastic strain of at least 5% when measured without any additive or filler dispersed therein and wherein the high-elasticity polymer comprises a crosslinked polymer network of chains derived from a phosphazene compound and wherein the crosslinked polymer network of chains is impregnated with from 0% to 90% by weight of a liquid electrolyte.Type: GrantFiled: February 8, 2021Date of Patent: April 25, 2023Assignee: Global Graphene Group, Inc.Inventor: Bor Z. Jang
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Patent number: 11637291Abstract: Provided is a lithium secondary battery comprising a cathode, an anode, and an electrolyte or separator-electrolyte assembly disposed between the cathode and the anode, wherein the anode comprises: (a) An anode current collector, initially having no lithium or lithium alloy as an anode active material when the battery is made and prior to a charge or discharge operation; and (b) a thin layer of a high-elasticity polymer in ionic contact with the electrolyte and having a recoverable tensile strain from 2% to 700%, a lithium ion conductivity no less than 10?8 S/cm, and a thickness from 0.5 nm to 100 ?m. Preferably, the high-elasticity polymer contains a cross-linked network of polymer chains having an ether linkage, nitrile-derived linkage, benzo peroxide-derived linkage, ethylene oxide linkage, propylene oxide linkage, vinyl alcohol linkage, cyano-resin linkage, triacrylate monomer-derived linkage, tetraacrylate monomer-derived linkage, or a combination thereof in the cross-linked network of polymer chains.Type: GrantFiled: November 4, 2020Date of Patent: April 25, 2023Assignee: Global Graphene Group, Inc.Inventors: Hui He, Aruna Zhamu, Bor Z. Jang
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Patent number: 11629420Abstract: Provided is a metal matrix nanocomposite comprising: (a) a metal or metal alloy as a matrix material; and (b) multiple graphene sheets that are dispersed in said matrix material, wherein said multiple graphene sheets are substantially aligned to be parallel to one another and are in an amount from 0.1% to 95% by volume based on the total nanocomposite volume; wherein the multiple graphene sheets contain single-layer or few-layer graphene sheets selected from pristine graphene, graphene oxide, reduced graphene oxide, graphene fluoride, graphene chloride, graphene bromide, graphene iodide, hydrogenated graphene, nitrogenated graphene, doped graphene, chemically functionalized graphene, or a combination thereof and wherein the chemically functionalized graphene is not graphene oxide. The metal matrix exhibits a combination of exceptional tensile strength, modulus, thermal conductivity, and/or electrical conductivity.Type: GrantFiled: March 26, 2018Date of Patent: April 18, 2023Assignee: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Yi-jun Lin, Bor Z. Jang
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Patent number: 11616224Abstract: Disclosed is a process for producing graphene-semiconductor nanowire hybrid material, comprising: (A) preparing a catalyst metal-coated mixture mass, which includes mixing graphene sheets with micron or sub-micron scaled semiconductor particles to form a mixture and depositing a nano-scaled catalytic metal onto surfaces of the graphene sheets and/or semiconductor particles; and (B) exposing the catalyst metal-coated mixture mass to a high temperature environment (preferably from 100° C. to 2,500° C.) for a period of time sufficient to enable a catalytic metal-catalyzed growth of multiple semiconductor nanowires using the semiconductor particles as a feed material to form the graphene-semiconductor nanowire hybrid material composition. An optional etching or separating procedure may be conducted to remove catalytic metal or graphene from the semiconductor nanowires.Type: GrantFiled: January 17, 2019Date of Patent: March 28, 2023Assignee: Global Graphene Group, Inc.Inventor: Bor Z. Jang
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Patent number: 11603316Abstract: Provided is a method of producing multiple isolated hollow graphene balls, comprising: (a) mixing multiple particles of a graphitic material and multiple particles of a solid polymer carrier material to form a mixture in an impacting chamber of an energy impacting apparatus; (b) operating the energy impacting apparatus to peel off graphene sheets from the graphitic material and transferring the graphene sheets to surfaces of solid polymer carrier material particles to produce graphene-coated polymer particles; (c) recovering the graphene-coated polymer particles from the impacting chamber; and (d) suspending the graphene-encapsulated polymer particles in a gaseous medium to keep the particles separated from each other while concurrently pyrolyzing the particles to thermally convert polymer into pores and carbon, wherein at least one of the graphene balls comprises a hollow core enclosed by a shell composed of graphene sheets bonded together by carbon.Type: GrantFiled: July 25, 2018Date of Patent: March 14, 2023Assignee: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Bor Z. Jang
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Patent number: 11572280Abstract: A method of producing a graphene suspension, comprising: (a) mixing multiple particles of a graphitic material and multiple particles of a solid carrier material to form a mixture in an impacting chamber of an energy impacting apparatus; (b) operating the energy impacting apparatus with a frequency and an intensity for a length of time sufficient for peeling off graphene sheets from the graphitic material and transferring the graphene sheets to surfaces of the carrier material particles to produce graphene-coated carrier particles inside the impacting chamber; and (c) dispersing the graphene-coated carrier particles in a liquid medium and separating the graphene sheets from the carrier material particles using ultrasonication or mechanical shearing means and removing the carrier material from the liquid medium to produce the graphene suspension. The process is fast (1-4 hours as opposed to 5-120 hours of conventional processes), environmentally benign, cost effective, and highly scalable.Type: GrantFiled: August 2, 2018Date of Patent: February 7, 2023Assignee: Global Graphene Group, Inc.Inventors: Hao-Hsun Chang, Aruna Zhamu, Bor Z. Jang
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Patent number: 11572277Abstract: Provided is method of producing graphene directly from a pulp, paper, or paper product, the method comprising a procedure of subjecting the pulp, paper, or paper product (preferably containing post-consumer, reclaimed, or recycled product) to a graphitization treatment at a graphitization temperature in the range of 1,500° C. to 3,400° C. (preferably >2,500° C.) in a substantially non-oxidizing environment for a length of time sufficient for converting the product to a graphene material product. Preferably and typically, the method does not involve the use of an externally added undesirable chemical (other than those paper chemicals already present in the paper product) or catalyst. The method is environmentally benign, ecologically friendly, and highly scalable.Type: GrantFiled: April 11, 2017Date of Patent: February 7, 2023Assignee: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Bor Z. Jang
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Patent number: 11566852Abstract: Provided is a vapor-based heat transfer apparatus (e.g. a vapor chamber or a heat pipe), comprising: a hollow structure having a hollow chamber enclosed inside a sealed envelope or container made of a thermally conductive material, a wick structure in contact with one or a plurality of walls of the hollow structure, and a working liquid within the hollow structure and in contact with the wick structure, wherein the wick structure comprises a graphene material.Type: GrantFiled: April 26, 2019Date of Patent: January 31, 2023Assignee: Global Graphene Group, Inc.Inventors: Yi-jun Lin, Bor Z. Jang
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Patent number: 11560631Abstract: A method of producing graphene sheets from coke or coal powder, comprising: (a) forming an intercalated coke or coal compound by electrochemical intercalation conducted in an intercalation reactor, which contains (i) a liquid solution electrolyte comprising an intercalating agent; (ii) a working electrode that contains the powder in ionic contact with the liquid electrolyte, wherein the coke or coal powder is selected from petroleum coke, coal-derived coke, meso-phase coke, synthetic coke, leonardite, lignite coal, or natural coal mineral powder; and (iii) a counter electrode in ionic contact with the electrolyte, and wherein a current is imposed upon the working electrode and the counter electrode for effecting electrochemical intercalation of the intercalating agent into the powder; and (b) exfoliating and separating graphene planes from the intercalated coke or coal compound using an ultrasonication, thermal shock exposure, mechanical shearing treatment, or a combination thereof to produce isolated graphenType: GrantFiled: October 8, 2019Date of Patent: January 24, 2023Assignee: Global Graphene Group, Inc.Inventors: Aruna Zhamu, Bor Z. Jang