Image based modelling of microstructural heterogeneity in LiFePO4 electrodes for Li-ion batteries

S J Cooper; D S Eastwood; J Gelb; G Damblanc; D J L Brett; R S Bradley; P J Withers; P D Lee; A J Marquis; N P Brandon; P R Shearing

doi:10.1016/j.jpowsour.2013.04.156

Image based modelling of microstructural heterogeneity in LiFePO4 electrodes for Li-ion batteries

S J Cooper, D S Eastwood, J Gelb, G Damblanc, D J L Brett, R S Bradley, P J Withers, P D Lee, A J Marquis, N P Brandon, P R Shearing

Research output: Contribution to journal › Article › peer-review

Abstract

Battery and fuel cell simulations commonly assume that electrodes are macro-homogeneous and isotropic. These simulations have been used to successfully model performance, but give little insight into predicting failure. In Li-ion battery electrodes, it is understood that local tortuosity impacts charging rates, which may cause increased degradation. This report describes a novel approach to quantifying tortuosity based on a heat transfer analogy applied to X-ray microscopy data of a commercially available LiFePO4 electrode. This combination of X-ray imaging and image-based simulation reveals the microscopic performance of the electrode; notably, the tortuosity was observed to vary significantly depending on the direction considered, which suggests that tortuosity might best be quantified using vectors rather than scalars.

Original language	English
Pages (from-to)	1033-1039
Number of pages	7
Journal	Journal of Power Sources
Volume	247
DOIs	https://doi.org/10.1016/j.jpowsour.2013.04.156
Publication status	Published - 1 Feb 2014

Keywords

Imaged based modelling
Li-ion battery
Lithium iron phosphate
Tortuosity
X-ray tomography

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.jpowsour.2013.04.156

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Structural Evolution across multiple time and length scales
Withers, P., Cartmell, S., Cernik, R., Derby, B., Eichhorn, S., Freemont, A., Hollis, C., Mummery, P., Sherratt, M., Thompson, G. & Watts, D.
1/06/11 → 31/05/16
Project: Research

Cite this

@article{2ebf69ec101e478295c53c57322e75c5,

title = "Image based modelling of microstructural heterogeneity in LiFePO4 electrodes for Li-ion batteries",

abstract = "Battery and fuel cell simulations commonly assume that electrodes are macro-homogeneous and isotropic. These simulations have been used to successfully model performance, but give little insight into predicting failure. In Li-ion battery electrodes, it is understood that local tortuosity impacts charging rates, which may cause increased degradation. This report describes a novel approach to quantifying tortuosity based on a heat transfer analogy applied to X-ray microscopy data of a commercially available LiFePO4 electrode. This combination of X-ray imaging and image-based simulation reveals the microscopic performance of the electrode; notably, the tortuosity was observed to vary significantly depending on the direction considered, which suggests that tortuosity might best be quantified using vectors rather than scalars.",

keywords = "Imaged based modelling, Li-ion battery, Lithium iron phosphate, Tortuosity, X-ray tomography",

author = "Cooper, {S J} and Eastwood, {D S} and J Gelb and G Damblanc and Brett, {D J L} and Bradley, {R S} and Withers, {P J} and Lee, {P D} and Marquis, {A J} and Brandon, {N P} and Shearing, {P R}",

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day = "1",

doi = "10.1016/j.jpowsour.2013.04.156",

language = "English",

volume = "247",

pages = "1033--1039",

journal = "Journal of Power Sources",

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TY - JOUR

T1 - Image based modelling of microstructural heterogeneity in LiFePO4 electrodes for Li-ion batteries

AU - Cooper, S J

AU - Eastwood, D S

AU - Gelb, J

AU - Damblanc, G

AU - Brett, D J L

AU - Bradley, R S

AU - Withers, P J

AU - Lee, P D

AU - Marquis, A J

AU - Brandon, N P

AU - Shearing, P R

N1 - Times Cited: 4

PY - 2014/2/1

Y1 - 2014/2/1

N2 - Battery and fuel cell simulations commonly assume that electrodes are macro-homogeneous and isotropic. These simulations have been used to successfully model performance, but give little insight into predicting failure. In Li-ion battery electrodes, it is understood that local tortuosity impacts charging rates, which may cause increased degradation. This report describes a novel approach to quantifying tortuosity based on a heat transfer analogy applied to X-ray microscopy data of a commercially available LiFePO4 electrode. This combination of X-ray imaging and image-based simulation reveals the microscopic performance of the electrode; notably, the tortuosity was observed to vary significantly depending on the direction considered, which suggests that tortuosity might best be quantified using vectors rather than scalars.

AB - Battery and fuel cell simulations commonly assume that electrodes are macro-homogeneous and isotropic. These simulations have been used to successfully model performance, but give little insight into predicting failure. In Li-ion battery electrodes, it is understood that local tortuosity impacts charging rates, which may cause increased degradation. This report describes a novel approach to quantifying tortuosity based on a heat transfer analogy applied to X-ray microscopy data of a commercially available LiFePO4 electrode. This combination of X-ray imaging and image-based simulation reveals the microscopic performance of the electrode; notably, the tortuosity was observed to vary significantly depending on the direction considered, which suggests that tortuosity might best be quantified using vectors rather than scalars.

KW - Imaged based modelling

KW - Li-ion battery

KW - Lithium iron phosphate

KW - Tortuosity

KW - X-ray tomography

U2 - 10.1016/j.jpowsour.2013.04.156

DO - 10.1016/j.jpowsour.2013.04.156

M3 - Article

VL - 247

SP - 1033

EP - 1039

JO - Journal of Power Sources

JF - Journal of Power Sources

SN - 0378-7753

ER -

Image based modelling of microstructural heterogeneity in LiFePO4 electrodes for Li-ion batteries

Abstract

Keywords

UN SDGs

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Structural Evolution across multiple time and length scales

Cite this