Parasitic Reactions in Nanosized Silicon Anodes for Lithium-Ion Batteries

When designing nano-Si electrodes for lithium-ion batteries, the detrimental effect of the c-Li15Si4 phase formed upon full lithiation is often a concern. In this study, Si nanoparticles with controlled particle sizes and morphology were synthesized, and parasitic reactions of the metastable c-Li15S...

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Bibliographic Details
Published in:Nano letters 2017-03, Vol.17 (3), p.1512-1519
Main Authors: Gao, Han, Xiao, Lisong, Plümel, Ingo, Xu, Gui-Liang, Ren, Yang, Zuo, Xiaobing, Liu, Yuzi, Schulz, Christof, Wiggers, Hartmut, Amine, Khalil, Chen, Zonghai
Format: Article
Language:English
Subjects:
Electrodes
ENERGY STORAGE
Interface reactions
interfacial reaction
leakage current
Lithium-ion batteries
lithium-ion battery
Nanoparticles
Nanostructure
parasitic reaction
Rechargeable batteries
Silicon
silicon nanoparticles
Synthesis (chemistry)
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Summary:When designing nano-Si electrodes for lithium-ion batteries, the detrimental effect of the c-Li15Si4 phase formed upon full lithiation is often a concern. In this study, Si nanoparticles with controlled particle sizes and morphology were synthesized, and parasitic reactions of the metastable c-Li15Si4 phase with the nonaqueous electrolyte was investigated. The use of smaller Si nanoparticles (∼60 nm) and the addition of fluoroethylene carbonate additive played decisive roles in the parasitic reactions such that the c-Li15Si4 phase could disappear at the end of lithiation. This suppression of c-Li15Si4 improved the cycle life of the nano-Si electrodes but with a little loss of specific capacity. In addition, the characteristic c-Li15Si4 peak in the differential capacity (dQ/dV) plots can be used as an early-stage indicator of cell capacity fade during cycling. Our findings can contribute to the design guidelines of Si electrodes and allow us to quantify another factor to the performance of the Si electrodes.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.6b04551