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LiNO3-Based Electrolytes via Electron-Donation Modulation for Sustainable Nonaqueous Lithium Rechargeable Batteries
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2024-01-13 , DOI: 10.1002/anie.202316966
Hui Chen 1 , Kean Chen 1 , Laibing Luo 1 , Xingwei Liu 1 , Zhi Wang 1 , Along Zhao 2 , Hui Li 1 , Xinping Ai 1 , Yongjin Fang 1 , Yuliang Cao 1
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2024-01-13 , DOI: 10.1002/anie.202316966
Hui Chen 1 , Kean Chen 1 , Laibing Luo 1 , Xingwei Liu 1 , Zhi Wang 1 , Along Zhao 2 , Hui Li 1 , Xinping Ai 1 , Yongjin Fang 1 , Yuliang Cao 1
Affiliation
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Electron donation modulation rules are proposed to elucidate the formation mechanism and stability principle of LiNO3 as the single salt for electrolytes of nonaqueous lithium-ion batteries. High donor-number solvents with strong electron-donation ability dissolve LiNO3 while low donor-number solvents with weak electron-donation ability regulate the AI-ISC structure to stabilize the electrolyte. The LiNO3-DMSO@PC electrolyte enables remarkable long-term cycling performance by improving the solvent reduction tolerance.
中文翻译:
通过给电子调制的 LiNO3 基电解质用于可持续非水锂充电电池
提出电子供体调制规则来阐明LiNO 3作为非水锂离子电池电解质单盐的形成机制和稳定性原理。具有强给电子能力的高给体数溶剂溶解LiNO 3 ,而具有弱给电子能力的低给体数溶剂调节AI-ISC结构以稳定电解质。 LiNO 3 -DMSO@PC电解质通过提高溶剂还原耐受性,实现卓越的长期循环性能。
更新日期:2024-01-13
中文翻译:
通过给电子调制的 LiNO3 基电解质用于可持续非水锂充电电池
提出电子供体调制规则来阐明LiNO 3作为非水锂离子电池电解质单盐的形成机制和稳定性原理。具有强给电子能力的高给体数溶剂溶解LiNO 3 ,而具有弱给电子能力的低给体数溶剂调节AI-ISC结构以稳定电解质。 LiNO 3 -DMSO@PC电解质通过提高溶剂还原耐受性,实现卓越的长期循环性能。
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