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Activation of trace LiNO3 additives by BF3 in high-concentration electrolytes towards stable lithium metal batteries
Chemical Communications ( IF 4.3 ) Pub Date : 2023-06-15 , DOI: 10.1039/d3cc02166a
He-Yi Xia 1 , Yu-Ke Wang 1 , Zheng-Wen Fu 1
Chemical Communications ( IF 4.3 ) Pub Date : 2023-06-15 , DOI: 10.1039/d3cc02166a
He-Yi Xia 1 , Yu-Ke Wang 1 , Zheng-Wen Fu 1
Affiliation
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The activation of trace LiNO3 additives in high-concentration electrolytes is achieved by BF3 due to its Lewis acidity. This advanced electrolyte can promote the decomposition of LiNO3 into Li3N, attaining enhanced cycle reversibility of lithium anodes, which broadens the application of LiNO3 additives.
中文翻译:
高浓度电解液中 BF3 活化微量 LiNO3 添加剂以获得稳定的锂金属电池
高浓度电解液中微量LiNO 3添加剂的活化是通过BF 3由于其路易斯酸性而实现的。这种先进的电解质可以促进LiNO 3分解为Li 3 N,从而增强锂负极的循环可逆性,从而拓宽了LiNO 3添加剂的应用。
更新日期:2023-06-15
中文翻译:
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高浓度电解液中 BF3 活化微量 LiNO3 添加剂以获得稳定的锂金属电池
高浓度电解液中微量LiNO 3添加剂的活化是通过BF 3由于其路易斯酸性而实现的。这种先进的电解质可以促进LiNO 3分解为Li 3 N,从而增强锂负极的循环可逆性,从而拓宽了LiNO 3添加剂的应用。