Nanocrystalline CoSn2-carbon composite electrode prepared by using sonochemistry

A sonochemical method has been used to prepare negative electrode materials containing intermetallic nanoparticles and polyacrylonitrile (PAN). The ultrasound irradiation is applied to achieve small particle size. After annealing at 490 °C under Ar-flow, the polymer PAN is partially carbonized and the metallic nanoparticles are surrounded by a carbonaceous matrix. The main metallic phase is CoSn2. The carbonaceous coating and the surface oxides have been explored by using XPS. The resulting CoSn2-carbonaceous phase electrode (CoSn2@C) shows improved electrochemical behavior (ca. 450 mAh/g after 50 cycles) in comparison with previous reports on pure crystalline CoSn2. The reaction between CoSn2@C and Li has been studied by using XRD and 119Sn Mössbauer spectroscopy. The formation of large grains of crystalline LixSn phases after the first discharge is discarded. The small particle size which is achieved by using ultrasonication and the carbonaceous matrix contribute to maintain the Co–Sn interactions during the electrochemical cycling. The aggregation of the nanosized metallic particles upon electrochemical cycling can be suppressed by the carbonaceous matrix (pyrolytic PAN).

► The sonochemical method has been successfully used here to prepare composite electrode materials. ► The observed electrochemical behavior is enhanced. ► The results open a new pathway for the development of the negative electrode materials for lithium ion batteries.