Constructing Dissolution–Resistant Interphases for Long‐Life Sodium‐Ion Batteries at Elevated Temperatures

溶解 化学工程 离子 材料科学 无机化学 化学 有机化学 冶金 工程类
作者
Wen‐Ting Deng,Xiaofan Du,Gaojie Xu,Shitao Wang,Li Du,Tiantian Dong,Rongxian Wu,Chuanchuan Li,Zhaolin Lv,Jiangwei Ju,Xinhong Zhou,Guanglei Cui
出处
期刊:Advanced Science [Wiley]
卷期号:12 (27): e2502860-e2502860 被引量:9
标识
DOI:10.1002/advs.202502860
摘要

Abstract Rechargeable sodium‐ion batteries (SIBs) utilizing NaPF 6 ‐carbonate electrolytes consistently exhibit unsatisfactory cycle life at elevated temperatures, posing a significant challenge for their large‐scale commercialization. This is mainly caused by the instability of interphase layers at elevated temperatures, especially the high solubility of interphase components (especially NaF) in carbonate solvents. In this study, a novel additive of sodium difluorobis(oxalato) phosphate (NaDFBOP) is synthesized and introduced into NaPF 6 ‐carbonate electrolytes to enhance the cycle life of commercial SIBs composed of NaNi 1/3 Fe 1/3 Mn 1/3 O 2 (NFM) cathode and hard carbon (HC) anode, particularly at 50 °C. Specifically, the NaDFBOP enables NFM/HC SIBs to retain 85.45% of initial capacity after 1000 cycles at 30 °C and 90.76% after 500 cycles at 50 °C. Theoretical calculations reveal that DFBOP⁻ anions enter the first solvation shell of Na + , and NaDFBOP exhibits a strong propensity for decomposition. Characterizations suggest that NaDFBOP favors the formation of dissolution–resistant robust interphase layers enriched of dissolution‐resistant oxalate‐containing species and inorganic NaF, which have strong mutual binding energy. This work underscores the critical importance of designing functional additives and constructing dissolution‐resistant robust interphases to enhance the elevated temperature cycle life of SIBs.
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