Real‐Time Dilation Observation of Si‐Alloy Electrode Using Thermally Treated Poly (Amide‐Imide) as a Binder for Lithium Ion Battery

Real time dilation behaviors of a Si‐Ti‐Fe‐Al alloy electrode adopting a poly (amide‐imide) binder were investigated to understand the effects of thermal treatment temperature for PAI binder on the electrochemical performance of the Si‐alloy electrode using an in‐situ electrochemical dilatometer. In...

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Published in	Bulletin of the Korean Chemical Society Vol. 40; no. 3; pp. 248 - 253
Main Authors	Park, Hyeong‐Il, Lee, Dong Geun, Chung, Dong Jae, Sohn, Myungbeom, Park, Cheolho, Kim, Hansu
Format	Journal Article
Language	English
Published	Weinheim Wiley‐VCH Verlag GmbH & Co. KGaA 01.03.2019 대한화학회
Subjects	Binder In situ dilatometer Poly (amide‐imide) Si‐based electrode Volume expansion 화학
Online Access	Get full text
ISSN	1229-5949 0253-2964 1229-5949
DOI	10.1002/bkcs.11674

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Abstract	Real time dilation behaviors of a Si‐Ti‐Fe‐Al alloy electrode adopting a poly (amide‐imide) binder were investigated to understand the effects of thermal treatment temperature for PAI binder on the electrochemical performance of the Si‐alloy electrode using an in‐situ electrochemical dilatometer. In situ measurement of the electrode thickness showed that the changes in the volume of the Si electrode was suppressed by heat treatment greater than 300 °C, which well agreed with the improved cycle performance of the Si‐alloy electrode thermally treated at the same temperature. Differential dilation plots of the Si‐alloy electrodes were found to reveal more detailed changes in the volume of the Si‐alloy electrode, thus showing that the enhanced mechanical strength of thermally treated PAI effectively could control the expansion and contraction of the Si‐alloy electrode and ensuring a more stable cycle performance of the Si‐alloy electrode.
AbstractList	Real time dilation behaviors of a Si-Ti-Fe-Al alloy electrode adopting a poly (amide-imide) binder were investigated to understand the effects of thermal treatment temperature for PAI binder on the electrochemical performance of the Si-alloy electrode using an in-situ electrochemical dilatometer. In situ measurement of the electrode thickness showed that the changes in the volume of the Si electrode was suppressed by heat treatment greater than 300 °C, which well agreed with the improved cycle performance of the Si-alloy electrode thermally treated at the same temperature. Differential dilation plots of the Si-alloy electrodes were found to reveal more detailed changes in the volume of the Si-alloy electrode, thus showing that the enhanced mechanical strength of thermally treated PAI effectively could control the expansion and contraction of the Si-alloy electrode and ensuring a more stable cycle performance of the Si-alloy electrode. KCI Citation Count: 2 Real time dilation behaviors of a Si‐Ti‐Fe‐Al alloy electrode adopting a poly (amide‐imide) binder were investigated to understand the effects of thermal treatment temperature for PAI binder on the electrochemical performance of the Si‐alloy electrode using an in‐situ electrochemical dilatometer. In situ measurement of the electrode thickness showed that the changes in the volume of the Si electrode was suppressed by heat treatment greater than 300 °C, which well agreed with the improved cycle performance of the Si‐alloy electrode thermally treated at the same temperature. Differential dilation plots of the Si‐alloy electrodes were found to reveal more detailed changes in the volume of the Si‐alloy electrode, thus showing that the enhanced mechanical strength of thermally treated PAI effectively could control the expansion and contraction of the Si‐alloy electrode and ensuring a more stable cycle performance of the Si‐alloy electrode. Real time dilation behaviors of a Si‐Ti‐Fe‐Al alloy electrode adopting a poly (amide‐imide) binder were investigated to understand the effects of thermal treatment temperature for PAI binder on the electrochemical performance of the Si‐alloy electrode using an in‐situ electrochemical dilatometer. In situ measurement of the electrode thickness showed that the changes in the volume of the Si electrode was suppressed by heat treatment greater than 300 °C, which well agreed with the improved cycle performance of the Si‐alloy electrode thermally treated at the same temperature. Differential dilation plots of the Si‐alloy electrodes were found to reveal more detailed changes in the volume of the Si‐alloy electrode, thus showing that the enhanced mechanical strength of thermally treated PAI effectively could control the expansion and contraction of the Si‐alloy electrode and ensuring a more stable cycle performance of the Si‐alloy electrode.
Author	Sohn, Myungbeom Lee, Dong Geun Park, Hyeong‐Il Kim, Hansu Chung, Dong Jae Park, Cheolho
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Snippet	Real time dilation behaviors of a Si‐Ti‐Fe‐Al alloy electrode adopting a poly (amide‐imide) binder were investigated to understand the effects of thermal... Real time dilation behaviors of a Si-Ti-Fe-Al alloy electrode adopting a poly (amide-imide) binder were investigated to understand the effects of thermal...
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SubjectTerms	Binder In situ dilatometer Poly (amide‐imide) Si‐based electrode Volume expansion 화학
Title	Real‐Time Dilation Observation of Si‐Alloy Electrode Using Thermally Treated Poly (Amide‐Imide) as a Binder for Lithium Ion Battery
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