以化学沉积法制备Sn-Co合金纳米粒子/石墨复合材料,XRD和Ram an光谱表征物相结构,SEM观察表面形貌.结果显示,500℃高温热处理的Sn-Co/石墨复合材料,其颗粒密集均匀地分散于石墨载体上.Sn-Co合金纳米粒子颗粒直径100 nm左右.Sn-Co/石墨电极具有较高的比容量和循环寿命,这可能是该合金纳米粒子与棒状石墨间的亲合能有效地阻止Sn的脱落,Sn-Co的颗粒间隙缓冲锂嵌脱过程的结构张力,防止合金的膨胀与粉化.

The nano-structural Sn-Co/graphite composites were prepared by chemical reduction of the alloy electroless deposition solution in graphite suspensions,and the composites were annealed at 500 ℃.The phase structure and surface morphology of the composites were measured by XRD、SEM and Raman.The results indicate that there were high dispersions and high loadings of Sn-Co nanoparticles on graphite by thermal treatment.Electrochemical lithium storage performance was studied preliminarily on the obtained samples.The graphite modified with the Sn-Co nanoparticles possessed a higher electrochemical reversible capacity than that of graphite during the charge and discharge process.The appetency between the Sn-Co nanoparticles and graphite can effectively reduce or prevent active element Sn from flaking off the graphite.Interspace between deposited Sn-Co particles /particles can accommodate the larger structure strain of active materials produced during Li-ion insertion and extrction,which may both improve the cycle performance of the electrode.