Cell voltage versus electrode potential range in aqueous supercapacitors

Dai, Zengxin; Peng, Chuang; Chae, Jung Hoon; Ng, Kok Chiang; Chen, George Z.

doi:10.1038/srep09854

Cell voltage versus electrode potential range in aqueous supercapacitors

Dai, Zengxin; Peng, Chuang; Chae, Jung Hoon; Ng, Kok Chiang; Chen, George Z.

Authors

Zengxin Dai

Chuang Peng

Jung Hoon Chae

Kok Chiang Ng

Professor GEORGE CHEN GEORGE.CHEN@NOTTINGHAM.AC.UK
PROFESSOR OF ELECTROCHEMICAL TECHNOLOGIES

Abstract

Supercapacitors with aqueous electrolytes and nanostructured composite electrodes are attractive because of their high charging-discharging speed, long cycle life, low environmental impact and wide commercial affordability. However, the energy capacity of aqueous supercapacitors is limited by the electrochemical window of water. In this paper, a recently reported engineering strategy is further developed and demonstrated to correlate the maximum charging voltage of a supercapacitor with the capacitive potential ranges and the capacitance ratio of the two electrodes. Beyond the maximum charging voltage, a supercapacitor may still operate, but at the expense of a reduced cycle life. In addition, it is shown that the supercapacitor performance is strongly affected by the initial and zero charge potentials of the electrodes. Further, the differences are highlighted and elaborated between freshly prepared, aged under open circuit conditions, and cycled electrodes of composites of conducting polymers and carbon nanotubes. The first voltammetric charging-discharging cycle has an electrode conditioning effect to change the electrodes from their initial potentials to the potential of zero voltage, and reduce the irreversibility.

Citation

Dai, Z., Peng, C., Chae, J. H., Ng, K. C., & Chen, G. Z. (2015). Cell voltage versus electrode potential range in aqueous supercapacitors. Scientific Reports, 5(1), Article 9854. https://doi.org/10.1038/srep09854

Journal Article Type	Article
Acceptance Date	Mar 10, 2015
Publication Date	Apr 21, 2015
Deposit Date	Oct 12, 2017
Publicly Available Date	Oct 12, 2017
Journal	Scientific Reports
Electronic ISSN	2045-2322
Publisher	Nature Publishing Group
Peer Reviewed	Peer Reviewed
Volume	5
Issue	1
Article Number	9854
DOI	https://doi.org/10.1038/srep09854
Public URL	https://nottingham-repository.worktribe.com/output/749319
Publisher URL	https://www.nature.com/articles/srep09854
Contract Date	Oct 12, 2017

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