Fluorinated Deep Eutectic Gel Electrolytes for Sustainable Lithium Metal Batteries

化学 共晶体系 金属锂 电解质 锂(药物) 金属 无机化学 化学工程 有机化学 合金 物理化学 电极 医学 工程类 内分泌学
作者
Tongrui Zhang,Jiangtao Yu,Tianxing Lin,Yuqiu Song,M. Li,Feng Yang,Libo Song,Ying Jiang,Weiwei Xie,Yong Lü,Tianfei Liu,Kai Zhang,Jun Chen
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:147 (36): 32861-32872 被引量:17
标识
DOI:10.1021/jacs.5c08642
摘要

As an emerging class of eutectic mixtures, deep eutectic gel electrolytes (DEGEs) exhibit unique advantages in lithium metal batteries (LMBs), particularly due to their high ionic conductivity and tunable molecular interactions. However, it is challenging to realize high interfacial stability between DEGEs and lithium metal. We developed a series of DEGEs utilizing fluorinated amides, which leverage the electron-withdrawing effects of fluorine to precisely modulate the lowest unoccupied molecular orbital (LUMO) energy levels of amides and their binding affinities for Li+. A bidirectional screening criterion is proposed, integrating the LUMO energy levels of amides and the desolvation barriers of solvated Li+ ions. Among the tested amides, 2,2,2-trifluoro-N-methylacetamide (C═Oα3F) demonstrates the lowest LUMO energy level and desolvation energy barrier. The declined LUMO energy level facilitates the formation of a uniform and robust SEI layer enriched with LiF and Li3N. Meanwhile, the reduced Li+ desolvation energy barrier renders more anions to participate in the solvation process, and this synergistic solvent–anion-derived SEI mechanism further reinforces SEI stability. Additionally, the C═Oα3F-DEGE exhibits superior nonflammability and a high ionic conductivity of 1.24 mS cm–1. The enhanced properties enable the corresponding Li||Li symmetric battery to achieve stable cycling for over 9000 h and the Li||LiFePO4 battery counterpart to deliver an impressive lifespan of 2500 cycles with 81.7% capacity retention. These results underscore the advantages of C═Oα3F-DEGE over other fluorinated amide-based systems, providing new insights into the development of high-performance deep eutectic gel electrolytes.
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