Mechanisms of Li deposition on graphite anodes: surface coverage and cluster growth
Mechanisms of Li deposition on graphite anodes: surface coverage and cluster growth
Li plating on the anode is a side reaction in Li-ion batteries which competes with Li intercalation and leads to loss of capacity. Growth of Li clusters into dendrites is a potential safety hazard for batteries which can lead to internal short-circuit and fires. We consider two possibilities of Li deposition on the surface of graphite anode: deposition of Li+ ions uniformly on the surface and deposition of clusters of metallic Li. Using ab initio simulations, we predict the operating voltage for the occurrence of the above processes and safety measures to prevent dendrite growth in batteries. We find that Li deposition occurs in the following stages: at positive voltages vs. Li, surface deposition of Li+ ions is the dominant process. Below a critical cross-over voltage, the process of reduction of aggregated Li+ ions and the formation of metallic Li clusters takes over. This cross-over voltage is found to be −12 mV on the basal plane of unlithiated graphite and −29 mV on lithiated graphite. To prevent formation of Li clusters and for safe operation of Li-ion batteries, the voltage on the graphite anode should be kept above the cross-over value.
30073-30081
Bhandari, Arihant
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Dziedzic, Jacek
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Owen, John R.
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Kramer, Denis
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Skylaris, Chris Kriton
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8 October 2024
Bhandari, Arihant
f2f12a89-273f-4c5e-a52e-e21835aaacfc
Dziedzic, Jacek
8e2fdb55-dade-4ae4-bf1f-a148a89e4383
Owen, John R.
067986ea-f3f3-4a83-bc87-7387cc5ac85d
Kramer, Denis
1faae37a-fab7-4edd-99ee-ae4c30d3cde4
Skylaris, Chris Kriton
8f593d13-3ace-4558-ba08-04e48211af61
Bhandari, Arihant, Dziedzic, Jacek, Owen, John R., Kramer, Denis and Skylaris, Chris Kriton
(2024)
Mechanisms of Li deposition on graphite anodes: surface coverage and cluster growth.
Journal of Materials Chemistry A, 12 (43), .
(doi:10.1039/d4ta04834b).
Abstract
Li plating on the anode is a side reaction in Li-ion batteries which competes with Li intercalation and leads to loss of capacity. Growth of Li clusters into dendrites is a potential safety hazard for batteries which can lead to internal short-circuit and fires. We consider two possibilities of Li deposition on the surface of graphite anode: deposition of Li+ ions uniformly on the surface and deposition of clusters of metallic Li. Using ab initio simulations, we predict the operating voltage for the occurrence of the above processes and safety measures to prevent dendrite growth in batteries. We find that Li deposition occurs in the following stages: at positive voltages vs. Li, surface deposition of Li+ ions is the dominant process. Below a critical cross-over voltage, the process of reduction of aggregated Li+ ions and the formation of metallic Li clusters takes over. This cross-over voltage is found to be −12 mV on the basal plane of unlithiated graphite and −29 mV on lithiated graphite. To prevent formation of Li clusters and for safe operation of Li-ion batteries, the voltage on the graphite anode should be kept above the cross-over value.
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d4ta04834b
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Accepted/In Press date: 7 October 2024
Published date: 8 October 2024
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This journal is © The Royal Society of Chemistry 2024.
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Local EPrints ID: 496276
URI: http://eprints.soton.ac.uk/id/eprint/496276
ISSN: 2050-7488
PURE UUID: fa445689-9764-46ea-b8cf-ad4d6a4d5909
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Date deposited: 10 Dec 2024 17:58
Last modified: 11 Dec 2024 03:00
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Author:
Arihant Bhandari
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