Abstract: The present invention relates to a solid-state battery, particularly a lithium-ion solid-state battery, composed of one or more battery cells, which have an ion-conducting solid matrix (2) as solid electrolyte, which matrix is embedded between two electrodes (1, 3). The proposed solid-state battery is characterized in that the solid matrix (2) is formed form camphor, 2-adamantanone or a mixture of one of the two with one or more other substances. Owing to the use of camphor or 2-adamantanone, the solid electrolyte is mechanically stable and has good ionic conductivity in a wide temperature range.
Type:
Grant
Filed:
August 23, 2018
Date of Patent:
May 30, 2023
Assignee:
FRAUNHOFER-GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
Abstract: The present disclosure relates to a battery module and a battery pack. The battery module includes a plurality of battery units connected in series; at least two electrode output connecting pieces each disposed at an output end of the plurality of battery units; a plurality of bridging busbars, each connecting two battery units spaced by one or more other battery units among the plurality of battery units; and an adjacent busbar connecting two adjacent battery units among the plurality of battery units. An electrical connection path is formed in the battery module by the electrode output connecting pieces, the bridging busbars and the adjacent busbar. The battery module according to the present disclosure is applicable in diverse situations, and capable of improving safety performance and energy density.
Abstract: A separator assembly for a fuel cell includes: a first separator having a protruding bead seal providing a seal; a second separator joined to the first separator to be integrated therewith and having an arched bulge protruding in the same direction as the bead seal at a location corresponding to a location where the bead seal is formed; a gasket provided on a concave surface of the bulge of the second separator at the location where the bulge is formed, the concave surface being opposite to a convex surface of the bulge; and a sealing agent applied to a convex surface of the bead seal of the first separator at the location where the bead seal is formed.
Type:
Grant
Filed:
April 3, 2019
Date of Patent:
May 23, 2023
Assignees:
Hyundai Motor Company, Kia Motors Corporation
Inventors:
Seong Il Heo, Yoo Chang Yang, Byeong-Heon Jeong
Abstract: An electrolyte composition for use in an electrolytic cell and an electrolytic cell that includes the same. The electrolytic cell includes a chemical component having the general formula: [ H x ? O ( x - 1 ) 2 ] ? Z y I wherein x is an odd integer ?3; y is an integer between 1 and 20; and Z is one of a monoatomic ion from Groups 14 through 17 having a charge value between ?1 and ?3 or a polyatomic ion having a charge between ?1 and ?3. The electrolytic composition also includes between 1 and 300 ppm ionic salts selected from the group consisting of alkali metals salts and alkali earth metal salts and mixtures thereof; and water. The battery electrolyte composition has a specific gravity between 1.07 and 1.4.
Abstract: A sulfur-carbon composite including a porous carbon material; and sulfur coated on at least a portion of an inside and a surface of the porous carbon material, wherein a pore volume of the sulfur-carbon composite is 0.04 to 0.400 cm3/g and a specific surface area of the sulfur-carbon composite is 4.0 to 30 m2/g, and a method for preparing the same.
Type:
Grant
Filed:
November 16, 2018
Date of Patent:
May 23, 2023
Assignee:
LG ENERGY SOLUTION, LTD.
Inventors:
Eui Tae Kim, Suenghoon Han, Kwonnam Sohn, Doo Kyung Yang
Abstract: Provided is a positive electrode active material for non-aqueous electrolyte secondary batteries for making high capacity and high output compatible, non-aqueous electrolyte secondary batteries, having the positive electrode active material adopted thereto, and a production method for a positive electrode active material in which the positive electrode active material can be easily produced in an industrial scale. A positive electrode active material for non-aqueous electrolyte secondary batteries, contains: primary particles of a lithium nickel composite oxide represented by at least General Formula: LizNi1-x-yCoxMyO2 (0.95?z?1.03, 0<x?0.20, 0<y?0.10, x+y?0.20, and M is at least one type of element selected from Mg, Al, Ca, Ti, V, Cr, Mn, Nb, Zr, and Mo); and secondary particles configured by flocculating the primary particles, wherein an LiAl compound and an LiW compound are provided on surfaces of the primary particles.
Abstract: A charge/discharge device for an activation process of a secondary battery including an accommodation structure having a plurality of accommodation spaces and provided with a wiring duct at one side of each of the accommodation spaces, each of a plurality of charge/discharge boxes installed in each of the plurality of accommodation spaces, wires wired in a space inside the wiring duct, and an exhaust fan installed on an inner wall of the wiring duct, in which the exhaust fan is installed on the inner wall of the wiring duct adjacent to one side of the accommodation space, and the wires are wired to pass an external side of the exhaust fan is provided. A heat insulation panel may be additionally installed together with the exhaust fan in the wiring duct.
Type:
Grant
Filed:
January 4, 2019
Date of Patent:
April 4, 2023
Assignee:
LG ENERGY SOLUTION, LTD.
Inventors:
In Tae Chun, Jae Huoung Son, Chang Min Han, Ik Soo Chae, Chang Bum Ahn
Abstract: An apparatus for regulating pressure of exhaust gas of a fuel cell system includes porous foam mounted in an exhaust tube and having a plurality of pores therein and a regulator that compresses or expands the porous foam to regulate a differential pressure of the exhaust gas flowing through the exhaust tube.
Type:
Grant
Filed:
April 5, 2019
Date of Patent:
March 14, 2023
Assignees:
Hyundai Motor Company, KIA Motors Corporation
Inventors:
Kyoung Ku Ha, Byeong Seung Lee, Jeong Hee Park
Abstract: The present invention relates to nanostructured materials (including nanowires) for use in batteries. Exemplary materials include carbon-comprising, Si-based nanostructures, nanostructured materials disposed on carbon-based substrates, and nanostructures comprising nanoscale scaffolds. The present invention also provides methods of preparing battery electrodes, and batteries, using the nanostructured materials.
Type:
Grant
Filed:
September 17, 2020
Date of Patent:
March 7, 2023
Assignee:
ONED MATERIAL, INC.
Inventors:
Yimin Zhu, Jay L. Goldman, Jason Hartlove, Hans Jurgen Hofler
Abstract: A prismatic lithium ion battery cell includes a packaging having a cover. A power assembly disposed within the packaging has a first (e.g., negative) side and a second (e.g., positive) side. A terminal pad is electrically coupled to the first side, while the cover is electrically coupled to the second side, of the power assembly. The cover includes a spiral disk feature disposed below the terminal pad and a reversal disk disposed below the spiral disk feature. The reversal disk is configured to deflect upwards to displace the spiral disk feature to contact the terminal pad in response to a pressure within the packaging being greater than a first predefined pressure threshold, forming an external short-circuit between the first and second sides of the power assembly. Subsequently, a portion of the power assembly fails in response to the external short-circuit and interrupts current flow within the power assembly.
Abstract: Methods and systems are provided for transporting and hydrating a redox flow battery system with a portable field hydration system. In one example, the redox flow battery system may be hydrated with the portable field hydration system in a dry state, in the absence of liquids. In this way, a redox flow battery system may be assembled and transported from a battery manufacturing facility to an end-use location off-site while the redox flow battery system is in the dry state, thereby reducing shipping costs, design complexities, as well as logistical and environmental concerns.
Type:
Grant
Filed:
April 27, 2018
Date of Patent:
February 28, 2023
Assignee:
ESS TECH, INC.
Inventors:
Yang Song, Kenneth Kiyoshi Fisher, Timothy McDonald
Abstract: Embodiments of the present application relate to a solid electrolyte and a preparation method thereof, and an electrochemical device and an electronic device comprising the solid electrolyte. The solid electrolyte comprises a lithium-containing transition metal sulfide being represented by the chemical formula of Li2?2a+bCd1+aMcGe1?dS4, where M is selected from the group consisting of Al, Ga, In, Si, Sn and a combination thereof, wherein 0<a?0.25, 0?b?0.2, 0?c?0.2, and 0?d?0.2. The embodiments of the present application effectively improve the shortcomings of poor chemical stability of the conventional thiophosphate solid electrolyte in an atmospheric environment by providing the above solid electrolyte having a thio-LISICON structure and containing no phosphorus (P), so that the solid electrolyte has both good chemical stability and high ionic conductivity, thereby reducing the processing environment requirements and manufacturing cost of the solid electrolyte.
Type:
Grant
Filed:
June 17, 2019
Date of Patent:
February 21, 2023
Assignee:
Ningde Amperex Technology Limited
Inventors:
Molin Zhou, Leimin Xu, Jianming Zheng, Jianli Gai
Abstract: An energy storage device includes a current collector (negative electrode current collector), electrode body that includes a body portion and a tab projecting from the body portion, and a leading plate (negative electrode leading plate) that connects the current collector and the tab. In the leading plate, first and second plates and facing each other are continuously connected at end portions thereof in the first plate, the current collector is fixed to a first principal surface on the opposite side to the second plate. In the second plate, the tab is fixed to a second principal surface on the opposite side to the first plate.
Abstract: A nickel-based active material for a lithium secondary battery, a method of preparing the nickel-based active material, and a lithium secondary battery including a positive electrode including the nickel-based active material, the nickel-based active material comprising a secondary particle having an outer portion with a radially arranged structure and an inner portion with an irregular porous structure, wherein the inner portion of the secondary particle has a larger pore size than the outer portion of the secondary particle.
Type:
Grant
Filed:
July 19, 2017
Date of Patent:
January 31, 2023
Assignee:
Samsung SDI Co., Ltd.
Inventors:
Jongmin Kim, Jiyoon Kim, Pilsang Yun, Donggyu Chang, Kwanghwan Cho, Jangsuk Hyun, Jinhwa Kim
Abstract: In an electrolyte sheet for a solid oxide fuel cell according to the present invention, the number of flaws on at least one of surfaces of the sheet detected by a fluorescent penetrant inspection is 30 points or less in each of sections obtained by dividing the sheet into the sections each measuring 30 mm or less on a side. A unit cell for a solid oxide fuel cell according to the present invention comprises a fuel electrode, an air electrode, and the electrolyte sheet for a solid oxide fuel cell according to the present invention, which is disposed between the fuel electrode and the air electrode. A solid oxide fuel cell of the present invention includes the unit cell for a solid oxide fuel cell according to the present invention.
Abstract: An electrochemical cell includes a solid state material that functions as an electrolyte and a separator within the electrode assembly. The solid state material is a mixture of a polymer that is interspersed with an ionically conductive ceramic material.
Abstract: A positive-electrode active material contains a lithium composite oxide containing at least one selected from the group consisting of F, Cl, N, and S. The crystal structure of the lithium composite oxide belongs to a space group C2/m. An XRD pattern of the lithium composite oxide comprises a first peak within the first range of 44 degrees to 46 degrees of a diffraction angle 2? and a second peak within the second range of 18 degrees to 20 degrees of the diffraction angle 2?. The ratio of the second integrated intensity of the second peak to the first integrated intensity of the first peak is within a range of 0.05 to 0.90.
Abstract: A support plate for a protection module, and a battery module including the same. A support plate for a protection module of a battery module includes: a plate-shaped plate portion; and a support unit protruded or recessed from the plate portion and coupled to a protection member configured to control charging and discharging of a rechargeable battery, and the plate portion and the support unit are integrally formed.
Abstract: The present disclosure provides a lithium-ion battery, the lithium-ion battery comprises a positive electrode plate, a negative electrode plate, a separator and an electrolyte, the positive active material comprises a layered lithium-containing compound, the negative active material comprises graphite, the positive film and the negative film satisfy a relationship 0.3?(OIc×PDc)/(OIa×PDa)?20.0. The present disclosure can make the lithium-ion battery have smaller swelling and higher charging capability, and also make the lithium-ion battery have excellent cycle life and excellent safety performance during the long-term fast charging process.
Abstract: The present application is generally directed to composites comprising a hard carbon material and an electrochemical modifier. The composite materials find utility in any number of electrical devices, for example, in lithium ion batteries. Methods for making the disclosed composite materials are also disclosed.
Type:
Grant
Filed:
June 5, 2020
Date of Patent:
November 8, 2022
Assignee:
Group14 Technologies, Inc.
Inventors:
Avery J. Sakshaug, Leah A. Thompkins, Henry R. Costantino, Aaron M. Feaver