In this work, we report a supercapacitor based on SnO2@C composite electrode with better electrochemical performance. SnO2@C composite is synthesized from porous polymer beads by the impregnation method. The resultant composite is porous and retains uniform spherical morphology of polymer beads. The composite exhibits the bimodal distribution of pores with a specific surface area of 286 m2g−1. SnO2@C composite electrode show specific capacitance of 432 F g−1 at 1 A g−1 in 1M KOH electrolyte with capacitance retention of 95.5% for 2000 cycles. Besides, the composite electrode shows an energy density of 29.4 Wh kg−1 at a power density of 418 W kg−1 at 1 A g−1 current density. The optimize electrode design improves cyclic stability due to reducing crystal growth of SnO2 as well as diffusion kinetics because of the presence of bimodal pores which provides continuous electron path. The bimodal micropores and mesopores in carbon matrix have the accessibility of electrolyte to SnO2, improving overall electrochemical performance and therefore SnO2@C composite is suitable as electrode material for supercapacitors. © 2020 Elsevier Ltd

Atul Suresh Deshpande

Department of Materials Science and Metallurgical Engineering

Surendra Kumar Martha

Department of Chemistry

M.U. Rani

V. Naresh

D. Damodar

S. Muduli

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Electrochimica Acta

In-situ formation of mesoporous SnO2@C nanocomposite electrode for supercapacitors

Journal	Data powered by TypesetElectrochimica Acta
Publisher	Data powered by TypesetElsevier Ltd
ISSN	00134686