Silica Wastes to High-Performance Lithium Storage Materials: A Rational Designed Al2O3 Coating Assisted Magnesiothermic Process

Si/C yolk-shell structures have been developed to deal with the major issues associated with Si anodes: the huge volume changes and the low electrical conductivity. However, the fabrication process often involves expensive starting materials and/or simultaneously generates insulated SiC, which is harmful for Si anodes. Here, silica wastes from the optical fibers industry are used as starting materials to prepare high performance Si/C materials with Si@void@C yolk-shell structure via a rational designed Al2O3 coating assisted magnesiothermic process. The obtained yolk-shell Si@void@C materials have a capacity of more than 1450 mA h g(-1) after 100 cycles at 0.4 A g(-1). Thanks to the easily coated and removed Al2O3 layer, the general formation of SiC can be avoided which is beneficial for improving the rate performances, and a capacity of approximate to 800 mA h g(-1) is still kept after 200 cycles at a high rate of 10 A g(-1) with a low capacity loss of 0.08% per cycle.