Moving beyond 99.9% Coulombic efficiency for lithium anodes in liquid electrolytes
Gustavo M. Hobold,
Jeffrey Lopez,
Rui Guo,
Nicolò Minafra,
Abhik Banerjee,
Y. Shirley Meng (),
Yang Shao-Horn () and
Betar M. Gallant ()
Additional contact information
Gustavo M. Hobold: Massachusetts Institute of Technology
Jeffrey Lopez: Massachusetts Institute of Technology
Rui Guo: Massachusetts Institute of Technology
Nicolò Minafra: Massachusetts Institute of Technology
Abhik Banerjee: University of California San Diego
Y. Shirley Meng: University of California San Diego
Yang Shao-Horn: Massachusetts Institute of Technology
Betar M. Gallant: Massachusetts Institute of Technology
Nature Energy, 2021, vol. 6, issue 10, 951-960
Abstract:
Abstract As Li-ion battery costs decrease, energy density and thus driving range remains a roadblock for mass-market vehicle electrification. While Li-metal anodes help achieve Department of Energy targets of 500 Wh kg−1 (750 Wh l−1), Li Coulombic efficiencies fall below the 99.95+% required for 1,000+ cycles. Here we examine historical electrolyte developments underlying increased Coulombic efficiency and discuss emerging frameworks that support rational strategies to move beyond 99.9%. While multiple electrolytes reach 98–99% Coulombic efficiency over subsets of cycles, achieving >99.9% Coulombic efficiency consistently throughout cycling is an as yet unmet challenge. We analyse important interplays between electrolyte, solid electrolyte interphase composition, plating–stripping kinetics and Li morphology, many of which are only recently being quantified experimentally at the Li interface, and which collectively determine Coulombic efficiency. We also discuss forward-looking strategies that, if mastered, represent new opportunities to refine understanding and support new record values of Coulombic efficiency in the coming years.
Date: 2021
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natene:v:6:y:2021:i:10:d:10.1038_s41560-021-00910-w
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DOI: 10.1038/s41560-021-00910-w
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