Electrolyte design for LiF-rich solid–electrolyte interfaces to enable high-performance microsized alloy anodes for batteries

Chen, Ji; Fan, Xiulin; Li, Qin; Yang, Hongbin; Khoshi, M. Reza; Xu, Yaobin; Hwang, Sooyeon; Chen, Long Qi; Ji, Xiao Dong; Yang, Chongyin; He, Huixin; Wang, Chongmin; Garfunkel, Eric; Su, Dong; Borodin, Oleg; Wang, Chunsheng

doi:10.1038/s41560-020-0601-1

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Electrolyte design for LiF-rich solid–electrolyte interfaces to enable high-performance microsized alloy anodes for batteries

Author(s): Ji Chen , Xiulin Fan , Qin Li , Hongbin Yang , M. Reza Khoshi , Yaobin Xu , Sooyeon Hwang , Long Chen , Xiao Ji , Chongyin Yang , Huixin He , Chongmin Wang , Eric Garfunkel , Dong Su , Oleg Borodin , Chunsheng Wang

Publication date (Electronic): April 20 2020

Journal: Nature Energy

Publisher: Springer Science and Business Media LLC

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Most cited references 55

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Generalized Gradient Approximation Made Simple

John P Perdew, Kieron Burke, Matthias Ernzerhof (1997)

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Efficient iterative schemes forab initiototal-energy calculations using a plane-wave basis set

G Kresse, J. Furthmüller (1996)

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"Water-in-salt" electrolyte enables high-voltage aqueous lithium-ion chemistries.

Liumin Suo, Oleg Borodin, Tao Gao … (2015)

Lithium-ion batteries raise safety, environmental, and cost concerns, which mostly arise from their nonaqueous electrolytes. The use of aqueous alternatives is limited by their narrow electrochemical stability window (1.23 volts), which sets an intrinsic limit on the practical voltage and energy output. We report a highly concentrated aqueous electrolyte whose window was expanded to ~3.0 volts with the formation of an electrode-electrolyte interphase. A full lithium-ion battery of 2.3 volts using such an aqueous electrolyte was demonstrated to cycle up to 1000 times, with nearly 100% coulombic efficiency at both low (0.15 coulomb) and high (4.5 coulombs) discharge and charge rates.

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Title: Nature Energy

Abbreviated Title: Nat Energy

Publisher: Springer Science and Business Media LLC

ISSN (Electronic): 2058-7546

Publication date (Electronic): April 20 2020

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DOI: 10.1038/s41560-020-0601-1

SO-VID: 33133763-c46c-48c7-8b3a-8eee4202098f

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Electrolyte design for LiF-rich solid–electrolyte interfaces to enable high-performance microsized alloy anodes for batteries

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High Entropy Alloys and Complex Concentrated Alloys

Most cited references 55

Generalized Gradient Approximation Made Simple

Efficient iterative schemes forab initiototal-energy calculations using a plane-wave basis set

"Water-in-salt" electrolyte enables high-voltage aqueous lithium-ion chemistries.

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