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1.发明授权公开(公告)号:US09325033B2
公开(公告)日:2016-04-26
申请号:US14469909
申请日:2014-08-27
Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE
Inventor: Young Jun Kim , Goo Jin Jeong , Han Su Kim
IPC: H01M10/04 , H01M10/054 , H01M10/0563 , H01M4/133 , H01M4/38 , H01M4/40 , H01M4/58 , H01M4/587 , H01M4/583 , H01M4/02
CPC classification number: H01M10/054 , H01M4/133 , H01M4/381 , H01M4/40 , H01M4/582 , H01M4/583 , H01M4/587 , H01M10/04 , H01M10/0563 , H01M2004/028 , H01M2300/002 , Y10T29/49108
Abstract: There are provided a sodium-metal chloride secondary battery and a method of manufacturing the same. A secondary battery that is operated at room temperature and has a more stable electrochemical characteristic is provided. The present invention provides a sodium-metal chloride secondary battery and a method of manufacturing the same. The battery includes an anode made of a sodium-containing inorganic material, an electrolytic solution containing an electrolyte (NaAlCl4) and a solvent (sulfur dioxide), and a cathode including a carbon-based material in which NaCl is generated and decomposed according to an oxidation-reduction reaction of NaAlCl4-xSO2 and a metal chloride (CuCl2).
Abstract translation: 提供了一种钠金属氯化物二次电池及其制造方法。 提供在室温下操作并具有更稳定的电化学特性的二次电池。 本发明提供一种钠金属氯化物二次电池及其制造方法。 该电池包括由含钠无机材料制成的阳极,含有电解质(NaAlCl 4)和溶剂(二氧化硫)的电解液,以及包含碳基材料的阴极,其中产生NaCl并根据 NaAlCl4-xSO2和金属氯化物(CuCl2)的氧化还原反应。
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公开(公告)号:US20220393176A1
公开(公告)日:2022-12-08
申请号:US17544605
申请日:2021-12-07
Inventor: Jae Min Lim , Yong Gu Kim , Hong Seok Min , Sang Heon Lee , Sa Heum Kim , Yun Sung Kim , Ji Sang Yu , Kyung Su Kim , Goo Jin Jeong , Woo Suk Cho
Abstract: A method of manufacturing an all-solid-state battery electrode, an all-solid-state battery electrode manufactured by the method, and an all-solid-state battery including the electrode are disclosed. In the method, a specific type of binder included in the electrode is prepared in a fiber form by applying pressure to the binder under specific conditions, so that the fiber-form binder thus prepared has an average fineness that satisfies a specific range. Therefore, the all-solid-state battery including the electrode has an advantage of having high capacity even in the case of electrode thickening for high loading.
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3.发明授权公开(公告)号:US09287581B2
公开(公告)日:2016-03-15
申请号:US14469855
申请日:2014-08-27
Applicant: KOREA ELECTRONICS TECHNOLOGY INSTITUTE
Inventor: Young Jun Kim , Goo Jin Jeong , Han Su Kim
IPC: H01M10/054 , H01M4/134 , H01M4/40 , H01M10/04 , H01M4/38 , H01M4/58 , H01M10/0563 , H01M4/583 , H01M4/02
CPC classification number: H01M10/054 , H01M4/134 , H01M4/381 , H01M4/40 , H01M4/582 , H01M4/583 , H01M10/04 , H01M10/0563 , H01M2004/027 , H01M2300/002 , Y10T29/49108
Abstract: The present invention relates to a sodium-sulfur dioxide secondary battery. The present invention provides a method of manufacturing a sodium-sulfur dioxide secondary battery and a configuration of the sodium-sulfur dioxide secondary battery manufactured using the method. The method includes preparing a cathode and an anode, and providing an inorganic liquid electrolyte containing sulfur dioxide (SO2) and a sodium salt (NaAlCl4) between the cathode and the anode.
Abstract translation: 本发明涉及一种二氧化硫二次电池。 本发明提供一种制造钠 - 二氧化硫二次电池的方法和使用该方法制造的二氧化硫二次电池的结构。 该方法包括制备阴极和阳极,并且在阴极和阳极之间提供含有二氧化硫(SO 2)和钠盐(NaAlCl 4)的无机液体电解质。
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公开(公告)号:US12230804B2
公开(公告)日:2025-02-18
申请号:US17544605
申请日:2021-12-07
Inventor: Jae Min Lim , Yong Gu Kim , Hong Seok Min , Sang Heon Lee , Sa Heum Kim , Yun Sung Kim , Ji Sang Yu , Kyung Su Kim , Goo Jin Jeong , Woo Suk Cho
Abstract: A method of manufacturing an all-solid-state battery electrode, an all-solid-state battery electrode manufactured by the method, and an all-solid-state battery including the electrode are disclosed. In the method, a specific type of binder included in the electrode is prepared in a fiber form by applying pressure to the binder under specific conditions, so that the fiber-form binder thus prepared has an average fineness that satisfies a specific range. Therefore, the all-solid-state battery including the electrode has an advantage of having high capacity even in the case of electrode thickening for high loading.
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