Issue 10, 2021
From the journal:

Dalton Transactions

Quick in situ generation of a quinone-enriched surface of N-doped carbon cloth electrodes for electric double-layer capacitors

Xiaowei Lv,a   Shan Ji, ORCID logo *b   Jun Lu,a   Lei Zhang,a   Xuyun Wanga  and  Hui Wang ORCID logo *a  

* Corresponding authors

a State Key Laboratory Base for Eco-Chemical Engineering, College of Chemical Engineering, Qingdao University of Science and Technology, Qingdao, China
E-mail: wangh@qust.edu.cn

b College of Biological, Chemical Science and Engineering, Jiaxing University, Jiaxing, China
E-mail: jishan@mail.zjxu.edu.cn

Abstract

Although carbon-based electric double-layer capacitors (EDLCs) have been put into practical use, their performance needs to be improved by tuning the surface features and structures of the carbon electrodes. In this study, a method of electro-oxidation was developed to engineer the surface features of the carbon cloth wrapped with a nitrogen-doped carbon layer, and then to obtain a highly hydrophilic, nitrogen-doped carbon cloth electrode with plenty of quinone-containing sites. When the obtained materials were used as electrodes in symmetric capacitors, a high area-specific capacitance (1600 mF cm−2 at 1 mA cm−2), high volume energy density (9.47 mW h cm−3), and excellent cycling stability performance (the capacitance only drops by 3% after 10 000 cycles) can be achieved. These results show that the newly developed method is an efficient approach for improving the electrochemical performance of three-dimensional carbon electrodes in EDLCs.

Graphical abstract: Quick in situ generation of a quinone-enriched surface of N-doped carbon cloth electrodes for electric double-layer capacitors

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Article information

DOI
https://doi.org/10.1039/D0DT04374E
Article type
Paper
Submitted
24 Dec 2020
Accepted
08 Feb 2021
First published
09 Feb 2021

Dalton Trans., 2021,50, 3651-3659

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Quick in situ generation of a quinone-enriched surface of N-doped carbon cloth electrodes for electric double-layer capacitors

X. Lv, S. Ji, J. Lu, L. Zhang, X. Wang and H. Wang, Dalton Trans., 2021, 50, 3651 DOI: 10.1039/D0DT04374E

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