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Cheng, Shi; Wu, Ya-Ping; Young, Tessora R.; Dodd, Michael C.; Wu, Ji; Zhang, Hao; Huo, Zong-Li; Qian, Yu-Ting; Li, Yan; Li, Wen-Tao; et al (, Science of The Total Environment)null (Ed.)
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Deng, Tao; Cao, Longsheng; He, Xinzi; Li, Ai-Min; Li, Dan; Xu, Jijian; Liu, Sufu; Bai, Panxing; Jin, Ting; Ma, Lin; et al (, Chem)null (Ed.)Composite polymer electrolytes (CPEs) for solid-state Li metal batteries (SSLBs) still suffer from gradually increased interface resistance and unconstrained Li dendrite growth. Herein, we addressed the challenges by designing a LiF-rich inorganic solid-electrolyte interphase (SEI) through introducing a fluoride-salt concentrated interlayer on CPE film. The rigid and flexible CPE helps accommodate the volume change of electrodes, while the polymeric high-concentrated electrolyte (PHCE) surface-layer regulates Li-ion flux due to the formation of a stable LiF-rich SEI via anion reduction. The designed CPE-PHCE presents enhanced ionic conductivity and high oxidation stability of > 5.0V (vs. Li/Li+). What’s more, it dramatically reduces the interfacial resistance and achieves a high critical current density of 4.5 mA cm-2 for dendrite-free cycling. The SSLBs, fabricated with thin CPE-PHCE membrane (< 100 μm) and Co-free LiNiO2 cathode, exhibit exceptional electrochemical performance and long cycling stability. This approach of SEI design can also be applied to other types of batteries.more » « less
