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复合材料学报 2014

基于Polymer-S-C/SiO2多层结构大孔电极锂硫离子电池的制备与性能

, PP. 525-531

陈宗宗,张瑞丰

Keywords: SiO2大孔材料,C/SiO2复合电极,单质硫,聚合物膜,锂硫离子电池

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Abstract:

以新型SiO2大孔材料为模板，采用原位聚合及真空热解的方法制备出大孔C/SiO2复合电极，并先后在孔道表面负载单质硫及聚合物膜后得到具有Polymer-S-C/SiO2多层结构的复合大孔电极。用SEM对电极结构进行表征，并测定了比表面积和负载物的平均厚度；用EIS和充放电测试对电极的电化学性能进行了研究。结果表明：聚合物膜厚度的增加可使电极的交流阻抗迅速增大，同时能明显改善锂硫离子电池的逆循环性，说明聚合物膜的存在能够有效抑制多硫化物中间产物的流失。改变单体的用量可以调控聚合物膜的厚度，当聚合物膜平均厚度为8.0nm时，锂离子电池的循环性能达到最佳，其首次放电比容量达792mA·h/g，经过50个循环后，可逆容量仍达到635mA·h/g。

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