废轮胎衍生碳-聚合物复合纸作为具有长循环寿命的赝电容电极

Waste Tire Derived Carbon-Polymer Composite Paper as Pseudocapacitive Electrode with Long Cycle Life.

作者信息

Boota M, Paranthaman M Parans, Naskar Amit K, Li Yunchao, Akato Kokouvi, Gogotsi Y

机构信息

A. J. Drexel Nanomaterials Institute and Department of Materials Science and Engineering, Drexel University, Philadelphia, PA, 19104, USA.

Chemical Sciences Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee, 37831, USA.

出版信息

ChemSusChem. 2015 Nov;8(21):3576-81. doi: 10.1002/cssc.201500866. Epub 2015 Sep 25.

DOI:10.1002/cssc.201500866

PMID:26404735

Abstract

Recycling hazardous wastes to produce value-added products is becoming essential for the sustainable progress of our society. Herein, highly porous carbon (1625 m(2) g(-1)) is synthesized using waste tires as the precursor and used as a supercapacitor electrode material. The narrow pore-size distribution and high surface area led to good charge storage capacity, especially when used as a three-dimensional nanoscaffold to polymerize polyaniline (PANI). The composite paper was highly flexible, conductive, and exhibited a capacitance of 480 F g(-1) at 1 mV s(-1) with excellent capacitance retention of up to 98% after 10,000 charge/discharge cycles. The high capacitance and long cycle life were ascribed to the short diffusional paths, uniform PANI coating, and tight confinement of the PANI in the inner pores of the tire-derived carbon through π-π interactions, which minimized the degradation of the PANI upon cycling. We anticipate that the same strategy can be applied to deposit other pseudocapacitive materials to achieve even higher electrochemical performance and longer cycle life-a key challenge for redox active polymers.

摘要

回收危险废物以生产增值产品对于我们社会的可持续发展变得至关重要。在此，以废轮胎为前驱体合成了高孔隙率碳（1625 m² g⁻¹），并将其用作超级电容器电极材料。窄孔径分布和高比表面积导致了良好的电荷存储能力，特别是当用作三维纳米支架来聚合聚苯胺（PANI）时。复合纸具有高度柔韧性、导电性，在1 mV s⁻¹下电容为480 F g⁻¹，在10000次充放电循环后具有高达98%的优异电容保持率。高电容和长循环寿命归因于短扩散路径、均匀的聚苯胺涂层以及通过π-π相互作用将聚苯胺紧密限制在轮胎衍生碳的内孔中，这使循环过程中聚苯胺的降解最小化。我们预计，相同的策略可应用于沉积其他赝电容材料，以实现更高的电化学性能和更长的循环寿命——这是氧化还原活性聚合物面临的关键挑战。

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废轮胎衍生碳-聚合物复合纸作为具有长循环寿命的赝电容电极

Waste Tire Derived Carbon-Polymer Composite Paper as Pseudocapacitive Electrode with Long Cycle Life.

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