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Imaging in-operando LiCoO2 nanocrystallites with Bragg coherent X-ray diffraction

Imaging in-operando LiCoO2 nanocrystallites with Bragg coherent X-ray diffraction
Imaging in-operando LiCoO2 nanocrystallites with Bragg coherent X-ray diffraction
Although the LiCoO2 (LCO) cathode material has been widely used in commercial lithium ion batteries (LIB) and shows high stability, LIB’s improvements have several challenges that still need to be overcome. In this paper, we have studied the in-operando structural properties of LCO within battery cells using Bragg Coherent X-ray Diffraction Imaging to identify ways to optimise the LCO batteries’ cycling. We have successfully reconstructed the X-ray scattering phase variation (a fingerprint of atomic displacement) within a ≈ (1.6×1.4×1.3)µm3 LCO nanocrystal across a charge/discharge cycle. Reconstructions indicate strained domains forming, expanding, and fragmenting near the surface of the nanocrystal during charging, with a determined maximum relative lattice displacements of 0.467 Å. While discharging, all domains replicate in reverse the effects observed from the charging states, but with a lower maximum relative lattice displacements of 0.226 Å. These findings show the inefficiency-increasing domain dynamics within LCO lattices during cycling.
2399-3669
Serban, David
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Porter, Daniel G.
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Mokhtar, Ahmed H.
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Nellikkal, Mansoor
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Uthayakumar, Sivaperumal
1876977a-69c4-4f0a-8a48-6fb0ffa9741b
Zhang, Min
aff274c0-050d-40a3-8a37-626e902ef01f
Collins, Stephen P.
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Bombardi, Alexendro
ebbc9264-3bf7-484f-b49d-c8c817a0f0af
Li, Peng
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Rau, Christoph
da5d605e-4232-4b59-99c5-59ed77546891
Newton, Marcus C.
fac92cce-a9f3-46cd-9f58-c810f7b49c7e
Serban, David
2206233e-d1ab-4f6a-9d03-989884b529fa
Porter, Daniel G.
70360362-ea3f-40bd-ae01-41dbf0d5ed35
Mokhtar, Ahmed H.
f894fae3-5337-4364-a75d-02c35a3db64d
Nellikkal, Mansoor
f3e920a0-5497-4092-b083-42105cf9dfbc
Uthayakumar, Sivaperumal
1876977a-69c4-4f0a-8a48-6fb0ffa9741b
Zhang, Min
aff274c0-050d-40a3-8a37-626e902ef01f
Collins, Stephen P.
772c5933-7564-459c-8711-70a99f5f99f9
Bombardi, Alexendro
ebbc9264-3bf7-484f-b49d-c8c817a0f0af
Li, Peng
525f0f69-697b-42c1-a733-bee9a4599c92
Rau, Christoph
da5d605e-4232-4b59-99c5-59ed77546891
Newton, Marcus C.
fac92cce-a9f3-46cd-9f58-c810f7b49c7e

Serban, David, Porter, Daniel G., Mokhtar, Ahmed H., Nellikkal, Mansoor, Uthayakumar, Sivaperumal, Zhang, Min, Collins, Stephen P., Bombardi, Alexendro, Li, Peng, Rau, Christoph and Newton, Marcus C. (2024) Imaging in-operando LiCoO2 nanocrystallites with Bragg coherent X-ray diffraction. Communications Chemistry, 7 (1), [243]. (doi:10.1038/s42004-024-01331-y).

Record type: Article

Abstract

Although the LiCoO2 (LCO) cathode material has been widely used in commercial lithium ion batteries (LIB) and shows high stability, LIB’s improvements have several challenges that still need to be overcome. In this paper, we have studied the in-operando structural properties of LCO within battery cells using Bragg Coherent X-ray Diffraction Imaging to identify ways to optimise the LCO batteries’ cycling. We have successfully reconstructed the X-ray scattering phase variation (a fingerprint of atomic displacement) within a ≈ (1.6×1.4×1.3)µm3 LCO nanocrystal across a charge/discharge cycle. Reconstructions indicate strained domains forming, expanding, and fragmenting near the surface of the nanocrystal during charging, with a determined maximum relative lattice displacements of 0.467 Å. While discharging, all domains replicate in reverse the effects observed from the charging states, but with a lower maximum relative lattice displacements of 0.226 Å. These findings show the inefficiency-increasing domain dynamics within LCO lattices during cycling.

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e-pub ahead of print date: 27 October 2024
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Identifiers

Local EPrints ID: 496470
URI: http://eprints.soton.ac.uk/id/eprint/496470
DOI: doi:10.1038/s42004-024-01331-y
ISSN: 2399-3669
PURE UUID: 9301f038-c698-42c8-a05b-fa467fb24364
ORCID for David Serban: ORCID iD orcid.org/0000-0003-4335-4522
ORCID for Ahmed H. Mokhtar: ORCID iD orcid.org/0000-0002-7675-5616
ORCID for Marcus C. Newton: ORCID iD orcid.org/0000-0002-4062-2117

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Date deposited: 16 Dec 2024 17:40
Last modified: 17 Dec 2024 03:00

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Contributors

Author: David Serban ORCID iD
Author: Daniel G. Porter
Author: Ahmed H. Mokhtar ORCID iD
Author: Mansoor Nellikkal
Author: Sivaperumal Uthayakumar
Author: Min Zhang
Author: Stephen P. Collins
Author: Alexendro Bombardi
Author: Peng Li
Author: Christoph Rau
Author: Marcus C. Newton ORCID iD

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