Journal
ENERGY TECHNOLOGY
Volume 10, Issue 11, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/ente.202200236
Keywords
eutectic Si; Li-ion batteries; rapidly solidified Al-Si system alloys; Si anodes; volume expansion
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Si anodes have been attracting attention due to their abundant sources and high theoretical capacity. However, their large volume changes during charging and discharging have hindered practical applications. This study focuses on the structural design of Si anodes and develops a material that does not expand after the Li insertion process. The fabricated Si anode shows low-volume expansion and good cycling stability, opening up new possibilities for high-capacity energy storage devices.
Si anodes have been attracting attention because they offer the critical advantages of being derived from abundant sources and exhibiting a high theoretical capacity. However, Si anodes have not been used in practical applications of Li-ion batteries because of the unavoidable large volume changes that occur during charging and discharging. Herein, rather than considering the active material, the structural design of the Si anode is focused, developing a material whose volume does not expand even after the Li insertion process. The Si anode is fabricated by leaching Al from a rapidly solidified Al-Si alloy ribbon using a single-roller melt-spinning process. Si anode ribbons derived from 50Al-50Si alloy consisting of microscale primary Si and nanoscale eutectic Si show a low-volume expansion when Li is inserted to a capacity of 3000 mAh g(-1). Scanning electron microscopy observations show that the formed pores suppress the expansion of the electrode. At a rate of C/10, the electrode alone, without a binder or conductive carbon additive, exhibits good cycling stability; the initial capacity of 2070 mAh g(-1) slightly decreases to 1970 mAh g(-1) after 10 cycles. These results open a new platform for designing low-expansion Si anodes for high-capacity energy-storage devices.
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