Ultrafine crystalline SnO2 particles (2-3 nm) dispersed carbon matrix composites are prepared by a sol-gel method Citric acid and hydrous SnCl4 are used as the starting constituents The effect of the calcination temperatures on the structure and electrochemical properties of the composites has been studied Structure analyses show that ultrafine SnO2 particles form and disperse in the disordered carbon matrix in the calcination temperature range of 500-800 degrees C forming SnO2/C composites and the carbon content shows only a slight increase from 358 wt % to 39 1 wt % with the temperature Nano-Sn particles form when the calcination temperature is increased to 900 C forming a SnO2/Sn/C composite and the carbon content is increased to 493 wt % Electrochemical testing shows that the composite anodes provide high reversible cycle stability after several initial cycles maintaining capacities of 380-400 mAh g(-1) beyond 70 cycles for the calcination temperature of 600-800 C The effect of the structure feature of the ultrafine size of SnO2 and the disorder

• 出版日期2010-12-1
• 单位浙江大学