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Unveiling Polyindole: Freestanding As-electrospun Polyindole Nanofibers and Polyindole/Carbon Nanotubes Composites as Enhanced Electrodes for Flexible All-solid-state Supercapacitors

超级电容器 材料科学 碳纳米管 纳米复合材料 电容 制作 电极 纳米纤维 碳纳米纤维 静电纺丝 复合材料 导电聚合物 纳米技术 聚合物 化学 物理化学 病理 替代医学 医学
作者
Mike Tebyetekerwa,Shengyuan Yang,Shengjie Peng,Zhen Xu,Wenyu Shao,Pan Dan,Seeram Ramakrishna,Meifang Zhu
出处
期刊:Electrochimica Acta [Elsevier BV]
卷期号:247: 400-409 被引量:81
标识
DOI:10.1016/j.electacta.2017.07.038
摘要

Abstract Polyindole(Pind) is one of the conducting polymers (CPs) which previously was less studied but of recent is gaining attention for energy storage applications. In all the few previous reports, when Pind was employed as electrode active material in supercapacitors, the capacitance was reported low with reasonable values only being obtained as a composite with other materials. The reasons underlying the poor performance of Pind and Pind nanocomposites are thought to be: 1) inactive morphology and limited surface area, 2) poor conductivity, and 3) poor electrode fabrication techniques. To address the trio, we employed the traditional, easy and scalable electrospinning technique to fabricate high surface area electroactive Pind nanofibers. Further, a little percentage (10 wt.%) of carbon nanotubes (CNTs) were added to enhance the conductivity of Pind and to study the effect of our fabrication route on the nanocomposites. Significant capacitance improvements of up to 238 F g −1 and 476 F g −1 at 1.0 A g −1 for Pind and Pind/CNT freestanding electrospun electrodes, respectively were achieved. Moreover, we report the significant performance of the all-solid-state symmetric, flexible and binder-free supercapacitor fabricated by a one-step and scalable method of as-electrospun Pind/CNT nanofibers on the stainless steel fabric current collector. The supercapacitor showed a high energy density of 17.14 W h kg −1 at a power density of 426 W kg −1 and capacitance retention of 95% after 2000 cycles. We strongly believe that we have set a stage for Pind to compete in a healthy race with other CPs as a next generation electrode material for supercapacitors.
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