非晶态Fe-P合金电极的电沉积制备及其储锂性能
Electrodeposition and Lithium Storage Performance of Amorphous Fe-P Alloy Electrodes
Abstract
应用电沉积技术制备了fE-P合金电极材料。采用X射线衍射(Xrd)和扫描电子显微镜(SEM)分析了该合金材料的相结构和表面形貌。Xrd分析结果表明电沉积的fE-P合金具有非晶态结构。电化学性能测试表明:平面结构的fE-P合金电极首次放电(脱锂)容量达542MAH.g-1,首次循环的库仑效率为60%;50周循环之后放电容量为366MAH.g-1。用非原位的Xrd和SEM对电极的充放电机理进行了初步研究,结果表明,首次充电(嵌锂)过程中形成lI3P相,电极表面生成纳米棒结构铁-磷合金,它能有效缓解锂嵌入/脱出时引起的合金结构变化,抑制合金材料的体积膨胀,从而提高该合金电极的充放电效率和循环性能。 The planar structural Fe-P alloy deposits were prepared by electroplating.The structure and electrochem-ical performance of the electroplated Fe-P alloys have been investigated in detail.XRD results showed that Fe-P al-loy deposit exhibits an amorphous state.Electrochemical tests showed that the Fe-P alloy composite electrodes can deliver a discharge capacity of 542mAh.g-1 in the first cycle and the coulombic efficiency of 60%.At the 50th cycle the discharge capacity was 366mAh.g-1.The Fe-P electrodes with nanorods structure obtained during cycling was beneficial in reducing the irreversible capacity of Fe-P alloy electrode at initial charge-discharge,and in relaxing the volume expansion during cycling,which improved the cycleability of Fe-P alloy electrode.They are also beneficial to diffusion of Li inset/out of materials,and improve coulombic efficiency in charge-discharge cycle.