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    GARNET-LITHIUM TITANATE COMPOSITE ELECTROLYTE

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    A sintered composite ceramic includes: a lithium-garnet major phase; and a lithium-rich minor phase, such that the lithium-rich minor phase has LixTiO(x+4)/2, with 0.66≤x≤4. The sintered composite ceramic may exhibit a relative density of at least 90% of a theoretical maximum density of the ceramic, an ionic conductivity of at least 0.35 mS·cm−1, or a critical current density (CCD) of at least 1.0 mA·cm−2.

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    GARNET-LITHIUM TITANATE COMPOSITE ELECTROLYTE

    New search for: BADDING MICHAEL EDWARD
    New search for: JIN JUN
    New search for: SONG ZHEN
    New search for: SU JIANMENG
    New search for: WEN ZHAOYIN
    New search for: XIU TONGPING
    New search for: ZHENG CHUJUN

    A sintered composite ceramic includes: a lithium-garnet major phase; and a lithium-rich minor phase, such that the lithium-rich minor phase has LixTiO(x+4)/2, with 0.66≤x≤4. The sintered composite ceramic may exhibit a relative density of at least 90% of a theoretical maximum density of the ceramic, an ionic conductivity of at least 0.35 mS·cm−1, or a critical current density (CCD) of at least 1.0 mA·cm−2.

    Access

    Download

    GARNET-LITHIUM TITANATE COMPOSITE ELECTROLYTE

    New search for: BADDING MICHAEL EDWARD
    New search for: JIN JUN
    New search for: SONG ZHEN
    New search for: SU JIANMENG
    New search for: WEN ZHAOYIN
    New search for: XIU TONGPING
    New search for: ZHENG CHUJUN

    A sintered composite ceramic includes: a lithium-garnet major phase; and a lithium-rich minor phase, such that the lithium-rich minor phase has LixTiO(x+4)/2, with 0.66≤x≤4. The sintered composite ceramic may exhibit a relative density of at least 90% of a theoretical maximum density of the ceramic, an ionic conductivity of at least 0.35 mS·cm−1, or a critical current density (CCD) of at least 1.0 mA·cm−2.

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    Title:

    GARNET-LITHIUM TITANATE COMPOSITE ELECTROLYTE

    Contributors:

    BADDING MICHAEL EDWARD (author) / JIN JUN (author) / SONG ZHEN (author) / SU JIANMENG (author) / WEN ZHAOYIN (author) / XIU TONGPING (author) / ZHENG CHUJUN (author)

    Publication date:

    2021-11-11

    Type of media:

    Patent

    Type of material:

    Electronic Resource

    Language:

    English

    Classification:

    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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