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    • 3. 发明授权
    • Rechargeable metal-ion battery with non-aqueous hybrid ion electrolyte
    • 具有非水混合离子电解质的可充电金属离子电池
    • US09419278B2
    • 2016-08-16
    • US14271498
    • 2014-05-07
    • Sharp Laboratories of America, Inc.
    • Long WangYuhao LuDavid Evans
    • H01M2/00H01M4/58H01M10/058H01M10/44H01M10/0525H01M10/054H01M10/04H01M4/136H02J7/00
    • H01M4/58H01M4/136H01M10/049H01M10/0525H01M10/054H01M10/058H01M10/44H02J7/0042Y02E60/122Y10T29/49108
    • A method is provided for forming a rechargeable metal-ion battery with a non-aqueous hybrid ion electrolyte. The method provides a transition metal hexacyanometallate (TMHCM) cathode (AXM1YM2Z(CN)N.MH2O), where “A” is from a first group of metals, and M1 and M2 are transition metals. The electrolyte includes a first type of cation from the first group of metals, different than “A”. The method connects the cathode and anode to external circuitry to perform initial charge/discharge operations. As a result, a hybrid ion electrolyte is formed including the first type of cation and “A” cations. Subsequently, cations are inserted into the anode during charging, which alternatively may be only “A” cations, only the first type of cation, or both the “A” cations and the first type of cation. Only “A” cations, only the first type, or both “A” and the first type of cation are inserted into the TMHCM during discharge.
    • 提供了一种用非水混合离子电解质形成可再充电金属离子电池的方法。 该方法提供了过渡金属六金属金属酸盐(TMHCM)阴极(AXM1YM2Z(CN)N.MH2O),其中“A”来自第一组金属,M1和M2是过渡金属。 电解质包含不同于“A”的第一类金属的第一类型的阳离子。 该方法将阴极和阳极连接到外部电路以执行初始充电/放电操作。 结果,形成包含第一种阳离子和“A”阳离子的混合离子电解质。 随后,在充电期间将阳离子插入阳极中,或者可以仅仅是“A”阳离子,仅第一类型的阳离子,或者“A”阳离子和第一类型的阳离子。 在放电期间,只有“A”阳离子,只有第一种类型,或“A”型和第一种类型的阳离子被插入到TMHCM中。
    • 5. 发明申请
    • Rechargeable Metal-Ion Battery with Non-Aqueous Hybrid Ion Electrolyte
    • 具有非水混合离子电解质的可充电金属离子电池
    • US20140239907A1
    • 2014-08-28
    • US14271498
    • 2014-05-07
    • Sharp Laboratories of America, Inc.
    • Long WangYuhao LuDavid Evans
    • H01M4/58H01M10/44H01M10/058H01M4/136H01M10/056
    • H01M4/58H01M4/136H01M10/049H01M10/0525H01M10/054H01M10/058H01M10/44H02J7/0042Y02E60/122Y10T29/49108
    • A method is provided for forming a rechargeable metal-ion battery with a non-aqueous hybrid ion electrolyte. The method provides a transition metal hexacyanometallate (TMHCM) cathode (AXM1YM2Z(CN)N.MH2O), where “A” is from a first group of metals, and M1 and M2 are transition metals. The electrolyte includes a first type of cation from the first group of metals, different than “A”. The method connects the cathode and anode to external circuitry to perform initial charge/discharge operations. As a result, a hybrid ion electrolyte is formed including the first type of cation and “A” cations. Subsequently, cations are inserted into the anode during charging, which alternatively may be only “A” cations, only the first type of cation, or both the “A” cations and the first type of cation. Only “A” cations, only the first type, or both “A” and the first type of cation are inserted into the TMHCM during discharge.
    • 提供了一种用非水混合离子电解质形成可再充电金属离子电池的方法。 该方法提供了过渡金属六金属金属酸盐(TMHCM)阴极(AXM1YM2Z(CN)N.MH2O),其中“A”来自第一组金属,M1和M2是过渡金属。 电解质包含不同于“A”的第一类金属的第一类型的阳离子。 该方法将阴极和阳极连接到外部电路以执行初始充电/放电操作。 结果,形成包含第一种阳离子和“A”阳离子的混合离子电解质。 随后,在充电期间将阳离子插入阳极中,或者可以仅仅是“A”阳离子,仅第一类型的阳离子,或者“A”阳离子和第一类型的阳离子。 在放电期间,只有“A”阳离子,只有第一种类型,或“A”型和第一种类型的阳离子被插入到TMHCM中。