Journal
ENERGY TECHNOLOGY
Volume 4, Issue 8, Pages 1005-1012Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/ente.201600057
Keywords
anode materials; electrochemistry; electron microscopy; lithium; silicon
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Funding
- Innovation by Science and Technology Institute (IWT), Flanders
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One approach to cope with the continuous irreversible capacity loss in Si-based electrodes, attributed to lithiation-induced volume changes and the formation of a solid-electrolyte interface (SEI), is by coating silicon nanoparticles. A coating can improve the conductivity of the electrode, form a chemical shield against the electrolyte, or provide mechanical confinement to reduce the volume increase. The influence of such a coating on the mechanical behavior of silicon nanoparticles during Li insertion and Li extraction was investigated by insitu transmission electron microscopy. The type of coating was shown to influence the size of the unreacted core that remains after reaction of silicon with lithium. Furthermore, two mechanisms to relieve the stress generated during volume expansion are reported: the initiation of cracks and the formation of nanovoids. Both result in a full reaction of the silicon nanoparticles, whereas with the formation of cracks, additional surface area is created, on which an SEI can be formed.
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