Multidimensional performance optimization of conducting polymer-based supercapacitor electrodes,Sustainable Energy & Fuels

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Multidimensional performance optimization of conducting polymer-based supercapacitor electrodes
Sustainable Energy & Fuels ( IF 5.0 ) Pub Date : 2017-09-11 00:00:00 , DOI: 10.1039/c7se00339k
Kara D. Fong _{1,

2,

3,

4} , Tiesheng Wang _{1,

2,

3,

4,

5} , Stoyan K. Smoukov _{1,

2,

3,

4,

6}

Affiliation

Supercapacitors based on conducting polymers promise to bridge the gap between the high power densities of carbon-based double-layer capacitors and the high energy densities of batteries. While much work has focused on improving the specific capacitance of these materials, emerging applications also demand competitive performance with regards to a variety of other criteria, including long-term cycling stability, mechanical robustness, and scalability of fabrication. There is no consolidated summary in the literature, however, of the specific strategies used to target these individual metrics as well as the tradeoffs that exist between them. Herein, we review the most recent progress in engineering high performance conducting polymer-based supercapacitor electrodes, emphasizing the successful techniques for polymer synthesis, nanostructuring, and compositing with carbon or metal oxides which have been used to optimize each of the most important supercapacitor performance metrics.

中文翻译：

导电聚合物基超级电容器电极的多维性能优化

基于导电聚合物的超级电容器有望弥合碳基双层电容器的高功率密度与电池的高能量密度之间的差距。尽管许多工作都集中在改善这些材料的比电容上，但是新兴的应用程序还需要在各种其他标准（包括长期循环稳定性，机械坚固性和制造的可扩展性）方面具有竞争力。但是，文献中没有针对这些单独指标以及这些指标之间存在的取舍目标的具体策略的综合摘要。在此，我们回顾了在工程设计高性能导电聚合物基超级电容器电极方面的最新进展，重点介绍了聚合物合成，纳米结构，

更新日期：2017-09-11

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