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Advanced High-Voltage All-Solid-State Li-Ion Batteries Enabled by a Dual-Halogen Solid Electrolyte

机译:通过双卤素固体电解质实现先进的高压全固态锂离子电池

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摘要

Solid-state electrolytes (SEs) with high anodic (oxidation) stability are essential for achieving all-solid-state Li-ion batteries (ASSLIBs) operating at high voltages. Until now, halide-based SEs have been one of the most promising candidates due to their compatibility with cathodes and high ionic conductivity. However, the developed chloride and bromide SEs still show limited electrochemical stability that is inadequate for ultrahigh voltage operations. Herein, this challenge is addressed by designing a dual-halogen Li-ion conductor: Li3InCl4.8F1.2. F is demonstrated to selectively occupy a specific lattice site in a solid superionic conductor (Li3InCl6) to form a new dual-halogen solid electrolyte (DHSE). With the incorporation of F, the Li3InCl4.8F1.2 DHSE becomes dense and maintains a room-temperature ionic conductivity over 10(-4) S cm(-1). Moreover, the Li3InCl4.8F1.2 DHSE exhibits a practical anodic limit over 6 V (vs Li/Li+), which can enable high-voltage ASSLIBs with decent cycling. Spectroscopic, computational, and electrochemical characterizations are combined to identify a rich F-containing passivating cathode-electrolyte interface (CEI) generated in situ, thus expanding the electrochemical window of Li3InCl4.8F1.2 DHSE and preventing the detrimental interfacial reactions at the cathode. This work provides a new design strategy for the fast Li-ion conductors with high oxidation stability and shows great potential to high-voltage ASSLIBs.
机译:具有高阳极(氧化)稳定性的固态电解质(SES)对于实现在高电压下操作的全固态锂离子电池(ASSLIB)是必不可少的。到目前为止,由于它们与阴极和高离子电导率的兼容性,基于卤化物的SES是最有前途的候选者之一。然而,脱氯化氢和溴化物SES仍然显示出有限的电化学稳定性,这对于超高电压操作不足。这里,通过设计双卤素锂离子导体:Li3InCl4.8F1.2来解决该挑战。证明F是选择性地占据固体表面导体(Li3InCl6)中的特定晶格部位以形成新的双卤素固体电解质(DHSE)。掺入F时,Li3InCl4.8F1.2 DHSE变得致密,并保持房间温度离子电导率超过10(4)厘米(-1)。此外,Li3InCl4.8F1.2 DHSE呈现出超过6 V(VS Li / Li +)的实用阳极限制,可以使高压Asslib具有体面的循环。组合光谱,计算和电化学表征以鉴定原位产生的含富含量的钝化阴极 - 电解质界面(CEI),从而膨胀Li3InCl4.8F1.2 DHSE的电化学窗口并防止阴极处的有害界面反应。这项工作为具有高氧化稳定性的快速锂离子导体提供了一种新的设计策略,并且对高压asslibs表示巨大潜力。

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  • 来源
    《Advanced energy materials》 |2021年第32期|2100836.1-2100836.10|共10页
  • 作者

    Zhang Shumin; Zhao Feipeng; Wang Shuo; Liang Jianwen; Wang Jian; Wang Changhong; Zhang Hao; Adair Keegan; Li Weihan; Li Minsi; Duan Hui; Zhao Yang; Yu Ruizhi; Li Ruying; Huang Huan; Zhang Li; Zhao Shangqian; Lu Shigang; Sham Tsun-Kong; Mo Yifei; Sun Xueliang;

  • 作者单位

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada|Univ Western Ontario Dept Chem London ON N6A 5B7 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Univ Maryland Dept Mat Sci & Engn College Pk MD 20742 USA;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Univ Saskatchewan Canadian Light Source Inc Saskatoon SK S7N 2V3 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada|Glabat Solid State Battery Inc 700 Collip Circle London ON N6G 4X8 Canada;

    Univ Sci & Technol Beijing Sch Met & Ecol Engn 30 Xueyuan Rd Beijing 100083 Peoples R China;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada|Univ Western Ontario Dept Chem London ON N6A 5B7 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada|Univ Western Ontario Dept Chem London ON N6A 5B7 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

    Glabat Solid State Battery Inc 700 Collip Circle London ON N6G 4X8 Canada;

    China Automot Battery Res Inst Co Ltd 5th Floor 43 Min Bldg North Sanhuan Middle Rd Beijing 100088 Peoples R China;

    China Automot Battery Res Inst Co Ltd 5th Floor 43 Min Bldg North Sanhuan Middle Rd Beijing 100088 Peoples R China;

    China Automot Battery Res Inst Co Ltd 5th Floor 43 Min Bldg North Sanhuan Middle Rd Beijing 100088 Peoples R China;

    Univ Western Ontario Dept Chem London ON N6A 5B7 Canada;

    Univ Maryland Dept Mat Sci & Engn College Pk MD 20742 USA;

    Univ Western Ontario Dept Mech & Mat Engn London ON N6A 5B9 Canada;

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  • 正文语种 eng
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  • 关键词

    all-solid-state Li-ion batteries; anodic (oxidation) stability; cathode-electrolyte interface; F-rich passivating interface; ultrahigh voltage;

    机译:全固态锂离子电池;阳极(氧化)稳定性;阴极电解质界面;F丰富的钝化界面;超高电压;

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