Superionic Fluorinated Halide Solid Electrolytes for Highly Stable Li-Metal in All-Solid-State Li Batteries

Yu Tianwei; Liang Jianwen; Luo Liang; Wang Limin; Zhao Feipeng; Xu Guofeng; Bai Xiangtao; Yang Rong; Zhao Shangqian; Wang Jiantao; Yu Jinqiu; Sun Xueliang

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Superionic Fluorinated Halide Solid Electrolytes for Highly Stable Li-Metal in All-Solid-State Li Batteries

机译：全固态Li电池中高度稳定的Li-MeL金属的表面氟化卤化物固体电解质

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The halide solid-state electrolytes (SSEs) have received significant attention due to their high ionic conductivity and desirable compatibility with cathode materials. However, the reduction potential of the halide is still 0.6 V (versus Li/Li+). Reduction stability is still one of the challenges that need to be addressed. The fluorides have a wide electrochemical stability window due to the large electronegativity of F-. In contrast, Li3YBr6 (LYB) bromides have a narrower electrochemical window, although they have high lithium ion conductivity (10(-3) S cm(-1)). Herein, a fluorine doping strategy is employed. The interfacial stability between fluoride-doped bromides and lithium metal is researched by cycling of lithium symmetric cells. Li plating/stripping can maintain over 1000 h at 0.75 mA cm(-2). Interfacial protection mechanisms investigated by X-ray photoelectron spectroscopy. A fluoride-rich interfacial layer is formed in situ during the cycle, which achieves inhibition of the reduction. The Li metal treated fluorine doping of LYB exhibits significant potential in full cells. In fact, the induction of a stable in situ interfacial layer by fluorine doping can effectively improve the interfacial stability of bromides to lithium metal. Fluorine-doped modification offers a new attempt to realize lithium metal applications in all-solid-state lithium batteries.

机译：卤化物固态电解质（SSES）由于其高离子电导率和与阴极材料的理想兼容而受到显着的关注。然而，卤化物的降低电位仍然是＆ 0.6 V（与Li / Li +）。减少稳定性仍然是需要解决的挑战之一。由于F-的电负电负性，氟化物具有宽的电化学稳定性窗。相反，Li3YBR6（LYB）溴化物具有较窄的电化学窗口，但它们具有高锂离子电导率（＆ 10（-3）厘米（-1））。在此，采用氟掺杂策略。通过锂对称细胞循环研究氟化物掺杂溴化物和锂金属之间的界面稳定性。锂电镀/汽提可在0.75 mA cm（-2）下保持超过1000小时。 X射线光电子能谱研究的界面保护机制。富含氟化物的界面层在循环期间原位形成，这使得抑制减少。 LYB的Li金属处理的氟掺杂在全细胞中表现出显着的潜力。事实上，通过氟掺杂诱导稳定的原位界面层可以有效地提高溴化锂的界面稳定性。氟掺杂的改性提供了一种新的尝试，以实现全固态锂电池中的锂金属应用。

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来源
《Advanced energy materials》 |2021年第36期|2101915.1-2101915.9|共9页
作者
Yu Tianwei; Liang Jianwen; Luo Liang; Wang Limin; Zhao Feipeng; Xu Guofeng; Bai Xiangtao; Yang Rong; Zhao Shangqian; Wang Jiantao; Yu Jinqiu; Sun Xueliang;
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作者单位

GRINM Grp Co Ltd Natl Power Battery Innovat Ctr Beijing 100088 Peoples R China|China Automot Battery Res Inst Co Ltd Beijing 100088 Peoples R China|Gen Res Inst Nonferrous Met Beijing 100088 Peoples R China;

Univ Western Ontario London ON N6A 5B9 Canada;

GRINM Grp Co Ltd Natl Engn Res Ctr Rare Earth Mat Beijing 100088 Peoples R China|Rare Earth Funct Mat Xiongan Innovat Ctr Co Ltd Xiongan 071700 Peoples R China;

Gen Res Inst Nonferrous Met Beijing 100088 Peoples R China|GRIMAT Engn Inst Co Ltd Beijing 100088 Peoples R China;

Univ Western Ontario London ON N6A 5B9 Canada;

GRINM Grp Co Ltd Natl Power Battery Innovat Ctr Beijing 100088 Peoples R China|China Automot Battery Res Inst Co Ltd Beijing 100088 Peoples R China|Gen Res Inst Nonferrous Met Beijing 100088 Peoples R China;

GRINM Grp Co Ltd Natl Power Battery Innovat Ctr Beijing 100088 Peoples R China|China Automot Battery Res Inst Co Ltd Beijing 100088 Peoples R China;

GRINM Grp Co Ltd Natl Power Battery Innovat Ctr Beijing 100088 Peoples R China|China Automot Battery Res Inst Co Ltd Beijing 100088 Peoples R China;

GRINM Grp Co Ltd Natl Power Battery Innovat Ctr Beijing 100088 Peoples R China|China Automot Battery Res Inst Co Ltd Beijing 100088 Peoples R China|Gen Res Inst Nonferrous Met Beijing 100088 Peoples R China;

GRINM Grp Co Ltd Natl Power Battery Innovat Ctr Beijing 100088 Peoples R China|China Automot Battery Res Inst Co Ltd Beijing 100088 Peoples R China|Gen Res Inst Nonferrous Met Beijing 100088 Peoples R China;

GRINM Grp Co Ltd Natl Engn Res Ctr Rare Earth Mat Beijing 100088 Peoples R China|Rare Earth Funct Mat Xiongan Innovat Ctr Co Ltd Xiongan 071700 Peoples R China;

Univ Western Ontario London ON N6A 5B9 Canada;

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正文语种 eng
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关键词
all-solid-state lithium batteries; halides; in situ interfaces; lithium metal anodes;

机译：全固态锂电池;卤化物;原位界面;锂金属阳极;

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机译：适用于全固态电池的经现场调整的超离子Li_xScCI_（3 + x）卤化物固体电解质
2. Fluorinated Bifunctional Solid Polymer Electrolyte Synthesized under Visible Light for Stable Lithium Deposition and Dendrite-Free All-Solid-State Batteries [J] . Jia Minyi, Wen Peng, Wang Zongtao, Advanced Functional Materials . 2021,第27期

机译：在可见光下合成的氟化双官能固体聚合物电解质，用于稳定的锂沉积和无树枝状的全固态电池
3. A flexible composite solid electrolyte with a highly stable interphase for dendrite-free and durable all-solid-state lithium metal batteries [J] . Zhang Dechao, Xu Xijun, Huang Xinyue, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2020,第35期

机译：一种柔性复合固体电解液，具有高度稳定的无牢固和耐用的全固态锂金属电池的相互作用
4. (Invited) Solid Halide Electrolytes for All-Solid-State Lithium Ion Batteries [C] . Tetsuya Asano, Masashi Sakaida, Akihiro Sakai, Meeting of the Electrochemical Society;International Meeting on Chemical Sensors . 2020

机译：（邀请）全固态锂离子电池的固卤电解质
5. Investigation of High-Performance Lithium-Ion Batteries Based on Highly Conductive Li7La3Zr2O12 Solid-State Electrolyte and Stable Electrode-Electrolyte Interface [D] . Li, Junhao. 2021

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6. Rhombohedral Li1+xYxZr2-x(PO4)3 Solid Electrolyte Prepared by Hot-Pressing for All-Solid-State Li-Metal Batteries [O] . Qinghui Li, Chang Xu, Bing Huang, 2020

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7. Integrated Structure of Cathode and Double-Layer Electrolyte for Highly Stable and Dendrite-Free All-Solid-State Li-Metal Batteries [O] . -1

机译：用于高稳态和无树突式全固态Li金电池的阴极和双层电解质的集成结构

Superionic Fluorinated Halide Solid Electrolytes for Highly Stable Li-Metal in All-Solid-State Li Batteries

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