In situ electrochemical synthesis of lithiated silicon–carbon based composites anode materials for lithium ion batteries

The buffering effect of carbon on the structural stability of amorphous silicon films, used as an anode for lithium ion rechargeable batteries, has been studied during long term discharge/charge cycles. To this extent, the electrochemical performance of a prototype material consisting of amorphous S

A new kind of silicon-based composite anode with high initial coulombic efficiency and good cycling performance is synthesized by a wet high energy mechanical milling technique and characterized by Xray diffraction, transmission electron microscope and high resolution transmission electron microscop

ZnS/C composites were synthesized by a combined precipitation with carbon coating method. Morphology and structure of the as-prepared ZnS/C composite materials with carbon content of 4.6 wt%, 9.3 wt% and 11.4 wt% were characterized using TEM and XRD technique. TEM observation demonstrated that the Z