Issue 6, 2017

Characterising thermal runaway within lithium-ion cells by inducing and monitoring internal short circuits

Abstract

Lithium-ion batteries are being used in increasingly demanding applications where safety and reliability are of utmost importance. Thermal runaway presents the greatest safety hazard, and needs to be fully understood in order to progress towards safer cell and battery designs. Here, we demonstrate the application of an internal short circuiting device for controlled, on-demand, initiation of thermal runaway. Through its use, the location and timing of thermal runaway initiation is pre-determined, allowing analysis of the nucleation and propagation of failure within 18 650 cells through the use of high-speed X-ray imaging at 2000 frames per second. The cause of unfavourable occurrences such as sidewall rupture, cell bursting, and cell-to-cell propagation within modules is elucidated, and steps towards improved safety of 18 650 cells and batteries are discussed.

Graphical abstract: Characterising thermal runaway within lithium-ion cells by inducing and monitoring internal short circuits

Supplementary files

Article information

Article type
Paper
Submitted
09 Feb 2017
Accepted
17 Mar 2017
First published
29 Mar 2017
This article is Open Access
Creative Commons BY license

Energy Environ. Sci., 2017,10, 1377-1388

Characterising thermal runaway within lithium-ion cells by inducing and monitoring internal short circuits

D. P. Finegan, E. Darcy, M. Keyser, B. Tjaden, T. M. M. Heenan, R. Jervis, J. J. Bailey, R. Malik, N. T. Vo, O. V. Magdysyuk, R. Atwood, M. Drakopoulos, M. DiMichiel, A. Rack, G. Hinds, D. J. L. Brett and P. R. Shearing, Energy Environ. Sci., 2017, 10, 1377 DOI: 10.1039/C7EE00385D

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