Surface Chemistry Dependence on Aluminum Doping in Ni-rich LiNi 0.8 Co 0.2-y Al y O 2 Cathodes

Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte interface (CEI) stability. Aluminum in the bulk is known to enhance structural and thermal stability, yet the exact influence of aluminum at the CEI remains unclear. To address this, we utilized a combin...

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Published in:Scientific reports 2019-11, Vol.9 (1), p.17720
Main Authors: Lebens-Higgins, Zachary W, Halat, David M, Faenza, Nicholas V, Wahila, Matthew J, Mascheck, Manfred, Wiell, Tomas, Eriksson, Susanna K, Palmgren, Paul, Rodriguez, Jose, Badway, Fadwa, Pereira, Nathalie, Amatucci, Glenn G, Lee, Tien-Lin, Grey, Clare P, Piper, Louis F J
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Language:English
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Summary:Aluminum is a common dopant across oxide cathodes for improving the bulk and cathode-electrolyte interface (CEI) stability. Aluminum in the bulk is known to enhance structural and thermal stability, yet the exact influence of aluminum at the CEI remains unclear. To address this, we utilized a combination of X-ray photoelectron and absorption spectroscopy to identify aluminum surface environments and extent of transition metal reduction for Ni-rich LiNi Co AlyO (0%, 5%, or 20% Al) layered oxide cathodes tested at 4.75 V under thermal stress (60 °C). For these tests, we compared the conventional LiPF salt with the more thermally stable LiBF salt. The CEI layers are inherently different between these two electrolyte salts, particularly for the highest level of Al-doping (20%) where a thicker (thinner) CEI layer is found for LiPF (LiBF ). Focusing on the aluminum environment, we reveal the type of surface aluminum species are dependent on the electrolyte salt, as Al-O-F- and Al-F-like species form when using LiPF and LiBF , respectively. In both cases, we find cathode-electrolyte reactions drive the formation of a protective Al-F-like barrier at the CEI in Al-doped oxide cathodes.
ISSN:2045-2322