Carbon-Coated Sio for Libs with Superior Capacity and Cycle Stability

Li, Qian; Wang, Shuoran; Li, Yi; Huang, Na; He, Xihong; Gao, Lili; Du, Jinjing; Hu, Yingzhen; Hao, Yunxiang; Zhao, Yuxiang

doi:10.2139/ssrn.4507908

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Carbon-Coated Sio for Libs with Superior Capacity and Cycle Stability

8 Pages Posted: 12 Jul 2023

See all articles by Qian Li

Qian Li

Xi’an University of Architecture and Technology - School of Metallurgical Engineering

Silicon monoxide (SiO) is suggested as anode for LIBs with excellent theoretical capacity. Unfortunately, the low electrical conductivity and volume expansion limit its practical application. The preparation of SiO@C composites can effectively solve these problems. SiO@C composite materials are constructed with phenolic resin pyrolysis method. Experimental data indicate that SiO@C-20 with carbon content of 20 wt% possesses a high discharge capacity and superior initial coulombic efficiency (74.81 %) compared to others. The superior performance can be attributed mainly to carbon ratio with adjusting phenolic resin.

Keywords: Carbon materials, Anode, Core-shell, Composite materials, Volume changes

Suggested Citation: Suggested Citation

Li, Qian and Wang, Shuoran and Li, Yi and Huang, Na and He, Xihong and Gao, Lili and Du, Jinjing and Hu, Yingzhen and Hao, Yunxiang and Zhao, Yuxiang, Carbon-Coated Sio for Libs with Superior Capacity and Cycle Stability. Available at SSRN: https://ssrn.com/abstract=4507908 or http://dx.doi.org/10.2139/ssrn.4507908