摘要
采用液相法制备铜纳米棒阵列,并用作锂离子电池负极集流体,通过电沉积制备Sn-Co-Zn纳米棒阵列合金电极。合金电极主要是由Co Sn、Co Sn2和单质Zn组成的混晶。以1 C在0.02~1.50 V循环,合金电极首次循环的放电比容量为813.8 m Ah/g,库仑效率为87.5%,第50次循环的放电比容量为467.0 m Ah/g。电极活性材料多相结构及纳米阵列间隙,可缓解嵌锂过程中的体积膨胀。
Copper nanorods array was prepared by liquid phase reaction and used as anode current collector material for Li-ion battery.Sn-Co-Zn nanorods array alloy electrode was prepared by electrodeposition. The alloy electrode was the mixed crystal mainly composed of CoSn,CoSn2 and Zn. When cycled in 0. 02 ~ 1. 50 V with 1 C,the specific discharge capacity of alloy electrode in initial cycle was 813. 8 m Ah / g,the columbic efficiency was 87. 5%,the specific discharge capacity in 50 th cycle was 467. 0 m Ah / g. The multi-phase structure of electrode material and the nanorods array could alleviate the volume expansion during lithium intercalation.
出处
《电池》
CAS
CSCD
北大核心
2015年第1期26-28,共3页
Battery Bimonthly
关键词
锂离子电池
电沉积
铜纳米棒
负极
集流体
Li-ion battery
electrodeposition
copper nanorods
anode
current collector