SiO2/carbon composite microspheres with hollow core-shell structure as high stability electrode for lithium ion batteries.
writer:Miaolun Jiao, Kunlin Liu, Zhiqiang Shi, Chengyang Wang
keywords:aerosol sparying,electrochemical performance,hollow core-shell structure,lithium-ion batteries,SiO2/carbon composite
source:期刊
specific source:ChemElectroChem.
Issue time:2017年
The SiO2/carbon composite material used as a lithium‐ion battery (LIB) anode was synthesized by aerosol spraying a mixture of polyvinyl alcohol (PVA) solution and SiO2nanoparticles, followed by coating polyacrylonitrile (PAN) on the SiO2/PVA surface and an annealing treatment at 800?°C. The as‐prepared SiO2/po‐C@C has a hollow core–shell structure. The hollow section contributes to accommodate the volume expansion of SiO2 nanoparticles; the skeleton of porous carbon in the core not only enhances the electronic conductivity, but also provides the lithium‐ion diffusion path; the PAN‐based carbon shell benefits for forming a stable solid electrolyte interphase (SEI) film. This core–shell structure could partly alleviate the pulverization of the SiO2/po‐C@C particles and also perform excellent electrochemical performances. Compared with the SiO2@C composite, the SiO2/po‐C@C composite possesses a high specific charge capacity of 669.8?mA?h?g?1 at a current density of 100?mA?g?1 after 100 charge and discharge cycles with a high capacity retention of 98.6?%. Therefore, the SiO2/po‐C@C composite with a hollow core‐shell structure shows great potential as an anode material for future LIBs.