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Graded lithium-ion battery pouch cells to homogenise current distributions and reduce lithium plating

Graded lithium-ion battery pouch cells to homogenise current distributions and reduce lithium plating
Graded lithium-ion battery pouch cells to homogenise current distributions and reduce lithium plating

Spatial distributions in current, temperature, state-of-charge and degradation across the plane of large format lithium-ion battery pouch cells can significantly impact their performance, especially at high C-rates. In this paper, a method to smooth out these spatial distributions by grading the electrode microstructure in-the-plane is proposed. A mathematical model of a large format pouch cell is developed and validated against both temperature and voltage experimental data. An analytical solution for the optimal graded electrode that achieves a uniform current distribution across the pouch cell is then derived. The model predicts that the graded electrodes could significantly reduce the likelihood of lithium plating in large format pouch cells, with grading increasing the C-rate at which plating occurs from 2.4C to 4.3C. These results indicate the potential of designing spatially varying electrode architectures to homogenise the response of large format pouch cells and improve their high rate performance.

batteries, batteries - lithium, batteries—Li-ion, pouch cells, temperature, theory and modelling
0013-4651
Drummond, R.
934af439-7af8-45b3-afac-af5e744f379a
Tredenick, E. C.
a3341146-0b29-4f0e-bdac-b0b2bdd59f72
Kirk, T. L.
7bad334e-c216-4f4a-b6b3-cca90324b37c
Forghani, M.
d0802a2b-8aa1-4e3c-b715-d188ce0bb9d5
Grant, P. S.
8b1894eb-8cc1-48c7-b1bd-5593cbc67467
Duncan, S. R.
fa8481c1-3788-41a0-a304-02515b93ef7d
Drummond, R.
934af439-7af8-45b3-afac-af5e744f379a
Tredenick, E. C.
a3341146-0b29-4f0e-bdac-b0b2bdd59f72
Kirk, T. L.
7bad334e-c216-4f4a-b6b3-cca90324b37c
Forghani, M.
d0802a2b-8aa1-4e3c-b715-d188ce0bb9d5
Grant, P. S.
8b1894eb-8cc1-48c7-b1bd-5593cbc67467
Duncan, S. R.
fa8481c1-3788-41a0-a304-02515b93ef7d

Drummond, R., Tredenick, E. C., Kirk, T. L., Forghani, M., Grant, P. S. and Duncan, S. R. (2025) Graded lithium-ion battery pouch cells to homogenise current distributions and reduce lithium plating. Journal of the Electrochemical Society, 172 (1), [010518]. (doi:10.1149/1945-7111/ada751).

Record type: Article

Abstract

Spatial distributions in current, temperature, state-of-charge and degradation across the plane of large format lithium-ion battery pouch cells can significantly impact their performance, especially at high C-rates. In this paper, a method to smooth out these spatial distributions by grading the electrode microstructure in-the-plane is proposed. A mathematical model of a large format pouch cell is developed and validated against both temperature and voltage experimental data. An analytical solution for the optimal graded electrode that achieves a uniform current distribution across the pouch cell is then derived. The model predicts that the graded electrodes could significantly reduce the likelihood of lithium plating in large format pouch cells, with grading increasing the C-rate at which plating occurs from 2.4C to 4.3C. These results indicate the potential of designing spatially varying electrode architectures to homogenise the response of large format pouch cells and improve their high rate performance.

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More information

Published date: 17 January 2025
Additional Information: Publisher Copyright: © 2025 The Author(s). Published on behalf of The Electrochemical Society by IOP Publishing Limited.
Keywords: batteries, batteries - lithium, batteries—Li-ion, pouch cells, temperature, theory and modelling

Identifiers

Local EPrints ID: 503835
URI: http://eprints.soton.ac.uk/id/eprint/503835
DOI: doi:10.1149/1945-7111/ada751
ISSN: 0013-4651
PURE UUID: d8977140-354d-47d8-a794-1f1fafa33d7e
ORCID for T. L. Kirk: ORCID iD orcid.org/0000-0002-6700-0852

Catalogue record

Date deposited: 14 Aug 2025 16:47
Last modified: 15 Aug 2025 02:12

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Contributors

Author: R. Drummond
Author: E. C. Tredenick
Author: T. L. Kirk ORCID iD
Author: M. Forghani
Author: P. S. Grant
Author: S. R. Duncan

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