Beyond Electrostatic Interactions: Ring Strain-Driven Weakening of Solvent-Li+ Binding Enables Facile FSI Anion Reduction and Inorganic-Rich SEI Formation in Fluorinated Ether Electrolytes

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초록

Fluorinated ether solvents are widely recognized as effective materials for enhancing the performance of Li metal batteries. In particular, 2,2,3,3-tetrafluoro-1,4-dimethoxybutane (FDMB) has attracted significant attention for its dramatic improvement of the electrochemical stability of Li metal anodes. FDMB functions by effectively regulating the Li+ solvation sheath, increasing the contribution of bis(fluorosulfonyl)imide (FSI) anions to the solvation sheath, and promoting the formation of a stable anion-derived solid-electrolyte interphase (SEI). However, the molecular-level mechanism for why FDMB solvents exhibit superior performance has not yet been elucidated. Herein, first-principles calculations reveal that the incorporation of fluorine into the solvent causes a large repulsion in the seven-membered ring structure formed by FDMB-Li+ coordination, leading to a significant reduction in Li+ solvation ability, which in turn enhances the contribution of FSI anions to the solvation sheath. The FSI moiety is also identified as the reduction site within the Li+ solvation sheath, and its chemical reactivity is highest in the FDMB-containing solvation structure. The reductive decomposition of the FSI moiety via S-F and S-N bond cleavages is thermodynamically and kinetically most favorable in the Li+ solvation sheath incorporating FDMB, suggesting that the FDMB-based electrolyte significantly promotes FSI decomposition and facilitates the formation of a stable inorganic-rich SEI.

키워드

lithium metal batteryfluorinated solventsolvation structurering strainfirst-principles calculationINITIO MOLECULAR-DYNAMICSAB-INITIOETHER ELECTROLYTESMETALENERGYSTABILITYBATTERIESANODE
제목
Beyond Electrostatic Interactions: Ring Strain-Driven Weakening of Solvent-Li+ Binding Enables Facile FSI Anion Reduction and Inorganic-Rich SEI Formation in Fluorinated Ether Electrolytes
저자
Choi, JihoonHan, Young-Kyu
DOI
10.1021/acsaem.6c00412
발행일
2026-06
유형
Article
저널명
ACS Applied Energy Materials
9
11
페이지
6836 ~ 6847