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. (PI), Cartmell, S. (CoI), Cernik, R. (CoI), Derby, B. (CoI), Eichhorn, S. (CoI), Freemont, A. (CoI), Hollis, C. (CoI), Mummery, P. (CoI), Sherratt, M. (CoI), Thompson, G. (CoI) & Watts, D. (CoI)
1/06/11 → 31/05/16
Project: Research

Cite this

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

language = "English",

volume = "247",

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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

SN - 0378-7753

VL - 247

SP - 1033

EP - 1039

JO - Journal of Power Sources

JF - Journal of Power Sources

ER -

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

Abstract

Keywords

UN SDGs

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Projects

Structural Evolution across multiple time and length scales

Cite this