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    Oxide solid electrolyte and preparation method thereof

    Neue Suche nach: SHI XINGJU
    Neue Suche nach: XIE PU
    Neue Suche nach: XIONG WEIQIANG
    Neue Suche nach: SHANG XU
    Neue Suche nach: LI YANHONG
    Neue Suche nach: LIANG SHISHUO

    An oxide solid electrolyte and a preparation method thereof belong to the technical field of batteries. The oxide solid electrolyte is formed by sintering and crystallizing a lithium salt precursor and a main material, the lithium salt precursor comprises a lithium salt eutectic system which is formed by at least two lithium salts and has the eutectic temperature of 100-450 DEG C. The preparation method comprises the following steps: sintering and crystallizing a mixture formed by the lithium salt precursor and the main material at the temperature of 300-750 DEG C to obtain the oxide solid electrolyte. The preparation method can reduce the sintering temperature and is beneficial to reducing the cost.

    一种氧化物固体电解质及其制备方法,属于电池技术领域。氧化物固体电解质由锂盐前驱体和主料烧结并晶化而成,锂盐前驱体包括至少两种锂盐形成的共熔温度为100~450℃的锂盐共熔体系,制备方法包括:将锂盐前驱体与主料形成的混合物在300~750℃的温度下烧结并晶化以得到氧化物固体电解质。该制备方法能够降低烧结温度,有利于降低成本。

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    Oxide solid electrolyte and preparation method thereof

    Neue Suche nach: SHI XINGJU
    Neue Suche nach: XIE PU
    Neue Suche nach: XIONG WEIQIANG
    Neue Suche nach: SHANG XU
    Neue Suche nach: LI YANHONG
    Neue Suche nach: LIANG SHISHUO

    An oxide solid electrolyte and a preparation method thereof belong to the technical field of batteries. The oxide solid electrolyte is formed by sintering and crystallizing a lithium salt precursor and a main material, the lithium salt precursor comprises a lithium salt eutectic system which is formed by at least two lithium salts and has the eutectic temperature of 100-450 DEG C. The preparation method comprises the following steps: sintering and crystallizing a mixture formed by the lithium salt precursor and the main material at the temperature of 300-750 DEG C to obtain the oxide solid electrolyte. The preparation method can reduce the sintering temperature and is beneficial to reducing the cost.

    一种氧化物固体电解质及其制备方法,属于电池技术领域。氧化物固体电解质由锂盐前驱体和主料烧结并晶化而成,锂盐前驱体包括至少两种锂盐形成的共熔温度为100~450℃的锂盐共熔体系,制备方法包括:将锂盐前驱体与主料形成的混合物在300~750℃的温度下烧结并晶化以得到氧化物固体电解质。该制备方法能够降低烧结温度,有利于降低成本。

    Zugriff

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    Oxide solid electrolyte and preparation method thereof

    Neue Suche nach: SHI XINGJU
    Neue Suche nach: XIE PU
    Neue Suche nach: XIONG WEIQIANG
    Neue Suche nach: SHANG XU
    Neue Suche nach: LI YANHONG
    Neue Suche nach: LIANG SHISHUO

    An oxide solid electrolyte and a preparation method thereof belong to the technical field of batteries. The oxide solid electrolyte is formed by sintering and crystallizing a lithium salt precursor and a main material, the lithium salt precursor comprises a lithium salt eutectic system which is formed by at least two lithium salts and has the eutectic temperature of 100-450 DEG C. The preparation method comprises the following steps: sintering and crystallizing a mixture formed by the lithium salt precursor and the main material at the temperature of 300-750 DEG C to obtain the oxide solid electrolyte. The preparation method can reduce the sintering temperature and is beneficial to reducing the cost.

    一种氧化物固体电解质及其制备方法,属于电池技术领域。氧化物固体电解质由锂盐前驱体和主料烧结并晶化而成,锂盐前驱体包括至少两种锂盐形成的共熔温度为100~450℃的锂盐共熔体系,制备方法包括:将锂盐前驱体与主料形成的混合物在300~750℃的温度下烧结并晶化以得到氧化物固体电解质。该制备方法能够降低烧结温度,有利于降低成本。

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    Titel:

    Oxide solid electrolyte and preparation method thereof

    Weitere Titelangaben:

    氧化物固体电解质及其制备方法

    Beteiligte:

    SHI XINGJU (Autor:in) / XIE PU (Autor:in) / XIONG WEIQIANG (Autor:in) / SHANG XU (Autor:in) / LI YANHONG (Autor:in) / LIANG SHISHUO (Autor:in)

    Erscheinungsdatum:

    02.07.2021

    Medientyp:

    Patent

    Format:

    Elektronische Ressource

    Sprache:

    Chinesisch

    Klassifikation:

    IPC:  C04B Kalk , LIME / H01M Verfahren oder Mittel, z.B. Batterien, für die direkte Umwandlung von chemischer in elektrische Energie , PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY

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