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Dynamic evolution of cathode-electrolyte interphase in lithium metal batteries with ether electrolytes

Joule [2025]
Yawei Chen, Menghao Li, Yulin Jie, Yue Liu, Zhengfeng Zhang, Peiping Yu, Wanxia Li, Yang Liu, Xinpeng Li, Zhanwu Lei, Pengfei Yan, Tao Cheng, M. Danny Gu, Shuhong Jiao, Ruiguo Cao
ABSTRACT

High-voltage lithium (Li) metal batteries (HVLMBs) have attracted tremendous research interest in the past decade owing to their high energy densities. Electrode-electrolyte interphases in HVLMBs play critical roles in dictating their electrochemical performance. However, despite the intensive research on solid-electrolyte interphase (SEI) of Li anode, the cathode-electrolyte interphase (CEI) on high-voltage cathodes remains elusive. Herein, we report the formation and dynamic evolution of CEI on LiNi 0.8 Mn 0.1 Co 0.1 O 2 (NMC811) cathodes in ether-based electrolytes. We reveal that the solvent-derived interphase predominates the initial CEI, which subsequently evolves into a Li fluoride (LiF)-rich CEI during cycling. Through solvent design, the weak-solvation electrolyte with branched ether solvents promotes the formation of a conformal CEI layer featuring the monodispersing LiF nanocrystals (∼8 nm), thereby enabling NMC811 cathodes to sustain up to 2,000 cycles. This work addresses the long-standing questions regarding CEI evolution and provides valuable guidance for the rational electrolyte design for HVLMBs.

MATERIALS

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