Issue 33, 2019

Facile molten salt synthesis of Cs–MnO2 hollow microflowers for supercapacitor applications

Abstract

A facile molten salt technique is an interesting preparation method as it enables mass production of materials. With the use of CsNO3 salt, Cs-intercalated MnO2 hollow microflowers are obtained in this work. δ-MnO2 with a layered structure, instead of other allotropes with smaller structural cavities, is formed and stabilized by large Cs+ ions. Formation of the hollow microflowers is explained based on the Ostwald ripening process. The salt to starting agent ratio has little effect on the crystal structure and morphologies of the products but does influence the crystallinity, the interlayer distance, and the intercalating Cs+ content. The capacity of Cs+ in the structure and the interlayer distance are maximized when the weight ratio of CsNO3 : MnSO4 is 7 : 1. Cs–MnO2 obtained from this optimum ratio has most suitable crystallinity and interlayer distance, and consequently shows a highest specific capacitance of 155 F g−1 with excellent cycling performance. The obtained specific capacitance is comparable to that of other alkaline-intercalated MnO2, suggesting that Cs–MnO2 could be another interesting candidate for supercapacitor electrodes.

Graphical abstract: Facile molten salt synthesis of Cs–MnO2 hollow microflowers for supercapacitor applications

Supplementary files

Article information

Article type
Paper
Submitted
18 Mar 2019
Accepted
10 Jun 2019
First published
17 Jun 2019
This article is Open Access
Creative Commons BY license

RSC Adv., 2019,9, 19079-19085

Facile molten salt synthesis of Cs–MnO2 hollow microflowers for supercapacitor applications

P. Chomkhuntod, A. Jiamprasertboon, A. Waehayee, T. Butburee, N. Chanlek, N. Yong and T. Siritanon, RSC Adv., 2019, 9, 19079 DOI: 10.1039/C9RA02067E

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