【摘要】 选用合适的多功能掺杂剂,将导电聚合物材料与其他多功能材料进行复合,从而可以获得具有良好超电容性的复合材料。石墨烯材料结构特殊,有较大的理论比表面积且导电性能优良,在超级电容器电极材料中得以广泛应用,其与导电聚合物复合可有效地结合双电层电容与法拉第赝电容,获得良好的电化学性能。本文首先介绍了导电聚合物材料,然后介绍了目前掺杂态导电聚合物电极材料以及石墨烯/导电聚合物复合电极材料的研究进展,最后说明了目前导电复合电极材料在超级电容器方面遇到的问题和挑战。更多还原

【Abstract】 Choose suitable multifunctional dopants, and compound the conductive polymer material with other multifunctional materials, so as to obtain a composite material with good supercapacitance. Graphene material has a special sheet structure, large theoretical specific surface area and excellent electrical conductivity. It is widely used in supercapacitor electrode materials. Its composite with conductive polymer can effectively combine electric double layer capacitance and Faraday pseudocapacitance. Obtain good electrochemical performance. This article first introduces conductive polymer materials, then introduces the current research progress of doped conductive polymer electrode materials and graphene/conductive polymer composite electrode materials, and finally explains the current conductive composite electrode materials encountered in supercapacitors Problems and challenges.更多还原