2015
DOI: 10.1002/advs.201500332
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Quantifying Bulk Electrode Strain and Material Displacement within Lithium Batteries via High‐Speed Operando Tomography and Digital Volume Correlation

Abstract: Tracking the dynamic morphology of active materials during operation of lithium batteries is essential for identifying causes of performance loss. Digital volume correlation (DVC) is applied to high‐speed operando synchrotron X‐ray computed tomography of a commercial Li/MnO2 primary battery during discharge. Real‐time electrode material displacement is captured in 3D allowing degradation mechanisms such as delamination of the electrode from the current collector and electrode crack formation to be identified. … Show more

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Cited by 72 publications
(60 citation statements)
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“…However, surprisingly, very few published studies made use of DVC to translate microstructure changes into 4D displacement (or velocity) fields. One exception though is due to one team that studied lithium batteries in operando [178,65]. In these examples, DVC could inform on the strains, and hence ageing conditions under electrochemical changes, and finally provided a clear picture of the performance loss of such batteries.…”
Section: D Kinematic Measurements From Fast Tomographymentioning
confidence: 99%
“…However, surprisingly, very few published studies made use of DVC to translate microstructure changes into 4D displacement (or velocity) fields. One exception though is due to one team that studied lithium batteries in operando [178,65]. In these examples, DVC could inform on the strains, and hence ageing conditions under electrochemical changes, and finally provided a clear picture of the performance loss of such batteries.…”
Section: D Kinematic Measurements From Fast Tomographymentioning
confidence: 99%
“…The ceramic layers are shown to have little effect on the overall tortuosity of the membrane, but have been shown to improve the thermal and mechanical properties [52,53], as well as the wettability of polymer separators [54,55]. Hence, the combination of high tensile strength resulting from its isotropic structure, high tortuosity, and the presence of the ceramic layer [52,53] would help mitigate the risks associated overheating, dendrite growth and electrode displacement [56,57], making this separator favourable for safety critical applications.…”
Section: Tortuosity Factor Measurementmentioning
confidence: 99%
“…The non-destructive nature of both X-ray and neutron CT provides opportunities for four-dimensional (4D) studies, that is, the ability to explore the evolution of three-dimensional (3D) structures with time [22][23][24] . The authors have previously used highspeed X-ray CT to produce consecutive datasets of batteries during discharge for quantitative displacement measurements via digital volume correlation (DVC) 25 . The DVC of consecutive tomograms was used to explore the evolution of electrode structures in Li primary cells, which are widely used across consumer electronics, backup-power and aerospace applications.…”
mentioning
confidence: 99%