Abstract: SnO₂-CuO nanocomposite powders were prepared by chemical coprecipitation method using SnCl₄•5H₂O, NH₃•H₂O and Cu(NO₃)₂•3H₂O as raw materials. The powders were characterized by thermogravimertric(TG) analysis and differential thermal analysis(DTA), X-ray diffraction(XRD), and scanning electron microscope(SEM). The electrochemical properties of SnO₂-CuO and undoped SnO₂ powders as anode materials of lithium ion batteries were investigated comparatively by galvanostatic charge-discharge experiments and AC impedance. The results show that SnO₂-CuO nanocomposite powders with the average particle size of 87 nm can be obtained by this method. The structure of SnO₂ does not change with the introduction of CuO, but the average particle size of nano-SnO₂ decreases. SnO₂-CuO nanocomposite powders show a reversible capacity of 752 mA•h/g and better cycleability compared with nano-SnO₂. The capacity retention rates after 60 cycles of nano-SnO₂-CuO and SnO₂ are 93.6% and 92.0% at the charge- discharge rate of 0.1 C, respectively, which suggests that the introduction of CuO into SnO₂ can improve the cycleability of nano- SnO₂.

Key words: SnO₂; CuO; chemical coprecipitation method; lithium ion batteries; electrochemical properties