In-operando high-speed tomography of lithium-ion batteries during thermal runaway

Prevention and mitigation of thermal runaway presents one of the greatest challenges for the safe operation of lithium-ion batteries. Here, we demonstrate for the first time the application of high-speed synchrotron X-ray computed tomography and radiography, in conjunction with thermal imaging, to t...

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Veröffentlicht in:	Nature communications 2015-04, Vol.6 (1), p.6924-6924, Article 6924
Hauptverfasser:	Finegan, Donal P., Scheel, Mario, Robinson, James B., Tjaden, Bernhard, Hunt, Ian, Mason, Thomas J., Millichamp, Jason, Di Michiel, Marco, Offer, Gregory J., Hinds, Gareth, Brett, Dan J.L., Shearing, Paul R.
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Schlagworte:	639/301/299/891 639/638/440/951 Humanities and Social Sciences multidisciplinary Physics Science Science (multidisciplinary)
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creator	Finegan, Donal P. Scheel, Mario Robinson, James B. Tjaden, Bernhard Hunt, Ian Mason, Thomas J. Millichamp, Jason Di Michiel, Marco Offer, Gregory J. Hinds, Gareth Brett, Dan J.L. Shearing, Paul R.
description	Prevention and mitigation of thermal runaway presents one of the greatest challenges for the safe operation of lithium-ion batteries. Here, we demonstrate for the first time the application of high-speed synchrotron X-ray computed tomography and radiography, in conjunction with thermal imaging, to track the evolution of internal structural damage and thermal behaviour during initiation and propagation of thermal runaway in lithium-ion batteries. This diagnostic approach is applied to commercial lithium-ion batteries (LG 18650 NMC cells), yielding insights into key degradation modes including gas-induced delamination, electrode layer collapse and propagation of structural degradation. It is envisaged that the use of these techniques will lead to major improvements in the design of Li-ion batteries and their safety features. It is important to understand the mechanisms of thermally induced battery degradation and any safety hazards. Here, the authors use high-speed synchrotron radiation X-ray computed tomography to shed light on the structural and thermal dynamics associated with thermal runaway and failure of commercial Li-ion batteries.
doi_str_mv	10.1038/ncomms7924
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subjects	639/301/299/891 639/638/440/951 Humanities and Social Sciences multidisciplinary Physics Science Science (multidisciplinary)
title	In-operando high-speed tomography of lithium-ion batteries during thermal runaway
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