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Multielectron, Cation and Anion Redox in Lithium-Rich Iron Sulfide Cathodes

Authors :
Hansen, Charles J.
Zak, Joshua J.
Martinolich, Andrew J.
Ko, Jesse S.
Bashian, Nicholas H.
Kaboudvand, Farnaz
Van der Ven, Anton
Melot, Brent C.
Nelson Weker, Johanna
See, Kimberly A.
Source :
Journal of the American Chemical Society; April 2020, Vol. 142 Issue: 14 p6737-6749, 13p
Publication Year :
2020

Abstract

Conventional Li-ion cathodes store charge by reversible intercalation of Li coupled to metal cation redox. There has been increasing interest in new materials capable of accommodating more than one Li per transition-metal center, thereby yielding higher charge storage capacities. We demonstrate here that the lithium-rich layered iron sulfide Li2FeS2as well as a new structural analogue, LiNaFeS2, reversibly store ≥1.5 electrons per formula unit and support extended cycling. Ex situand operandostructural and spectroscopic data indicate that delithiation results in reversible oxidation of Fe2+concurrent with an increase in the covalency of the Fe–S interactions, followed by reversible anion redox: 2 S2–/(S2)2–. S K-edge spectroscopy unequivocally proves the contribution of the anions to the redox processes. The structural response to the oxidation processes is found to be different in Li2FeS2in contrast to that in LiNaFeS2, which we suggest is the cause for capacity fade in the early cycles of LiNaFeS2. The materials presented here have the added benefit of avoiding resource-sensitive transition metals such as Co and Ni. In contrast to Li-rich oxide materials that have been the subject of so much recent study and that suffer capacity fade and electrolyte degradation issues, the materials presented here operate within the stable potential window of the electrolyte, permitting a clearer understanding of the underlying processes.

Details

Language :
English
ISSN :
00027863 and 15205126
Volume :
142
Issue :
14
Database :
Supplemental Index
Journal :
Journal of the American Chemical Society
Publication Type :
Periodical
Accession number :
ejs52803532
Full Text :
https://doi.org/10.1021/jacs.0c00909