用于具有高电容和循环稳定性的柔性超级电容器的聚苯胺/石墨烯/聚酯纺织电极材料的制备

Fabrication of Polyaniline/Graphene/Polyester Textile Electrode Materials for Flexible Supercapacitors with High Capacitance and Cycling Stability.

作者信息

Shao Fu, Bian Shao-Wei, Zhu Quan, Guo Mei-Xia, Liu Si, Peng Yi-Hang

机构信息

College of Chemistry, Chemical Engineering and Biotechnology, Donghua University, Shanghai, 201620, P. R. China.

出版信息

Chem Asian J. 2016 Jul 5;11(13):1906-12. doi: 10.1002/asia.201600411. Epub 2016 Jun 2.

DOI:10.1002/asia.201600411

PMID:27156174

Abstract

Vertical polyaniline (PANI) nanowire arrays on graphene-sheet-coated polyester cloth (RGO/PETC) were fabricated by the in situ chemical polymerization of aniline. The 3D conductive network that was formed by the graphene sheets greatly enhanced the conductivity of PANI/RGO/PETC and improved its mechanical stability. PANI nanowire arrays increased the active surface area of PANI, whilst the hierarchically porous structure of the PANI/RGO/PETC electrode facilitated the diffusion of the electrolyte ions. Electrochemical measurements showed that the composite electrode exhibited a maximum specific capacitance of 1293 F g(-1) at a current density of 1 A g(-1) . Capacitance retention was greater than 95 %, even after 3000 cycles, which indicated that the electrode material has excellent cycling stability. Moreover, the electrode structure endowed the PANI/RGO/PETC electrode with a stable electrochemical performance under mechanical bending and stretching.

摘要

通过苯胺的原位化学聚合反应，在石墨烯包覆的聚酯布（RGO/PETC）上制备了垂直聚苯胺（PANI）纳米线阵列。由石墨烯片形成的三维导电网络极大地提高了PANI/RGO/PETC的导电性，并改善了其机械稳定性。PANI纳米线阵列增加了PANI的活性表面积，而PANI/RGO/PETC电极的分级多孔结构促进了电解质离子的扩散。电化学测量表明，复合电极在1 A g(-1)的电流密度下表现出1293 F g(-1)的最大比电容。即使在3000次循环后，电容保持率仍大于95%，这表明电极材料具有优异的循环稳定性。此外，电极结构赋予PANI/RGO/PETC电极在机械弯曲和拉伸下稳定的电化学性能。

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用于具有高电容和循环稳定性的柔性超级电容器的聚苯胺/石墨烯/聚酯纺织电极材料的制备

Fabrication of Polyaniline/Graphene/Polyester Textile Electrode Materials for Flexible Supercapacitors with High Capacitance and Cycling Stability.

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