Jae hyuk Kim scite author profile

This presentation reports Si alloy anode materials developed for commercial application for lithium ion batteries(LIBs). This Si alloy material consists of amorphous Si embedded metal-silicide anode materials. It’s synthesized by using mechanical milling. Our alloy have attained a high capacity(energy), high initial efficiency, excellent power property, high coulombic efficiency during cycling. However, sudden failure problem have happened with less FEC contained electrolyte sometimes before 200 or 300 cycles. In an attempt to overcome this major issue, we prepared amorphous C-coated Si alloy, and optimized C-coating process conditions like temperature, carbon contents. As a result, we could improve sudden failure problem with our new amorphous C-coated Si alloy. This new Si alloy’s performance suggests a promising approach to commercial Si anode materials with high capacity.

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Electrochemical Characterization of Si Alloy Anodes for Libs Synthesized By Mechanical Ball Milling

Cho¹,

Ahn²,

Suh³

et al. 2014

Meet. Abstr.

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Si alloy anodes were produced by mechanical milling in this study. They were prepared by ball milling the pieces of pre-alloyed melt spun ribbon. Our study was focused on the effect of a milling time on the electrochemical performance of Si alloys and microstructural evolution. As a result, it appears that the longer milling time, more cycle stability, the finer crystal size. In addition, we performed XRD, TEM analysis to characterize microstructure and intermetallic phases. This study leads to the best understanding to date of the electrochemistry of a Si alloy anode with an inactive matrix

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Jae hyuk Kim

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Electrochemical Characterization of Si Alloy Anodes for Libs Synthesized By Mechanical Ball Milling

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