Electrolyte-imprinted graphene oxide–chitosan chelate with copper crosslinked composite electrodes for intense cyclic-stable, flexible supercapacitors

S. Selvam; B. Balamuralitharan; S. Jegatheeswaran; Mi-Young Kim; S. N. Karthick; J. Anandha Raj; P. Boomi; M. Sundrarajan; K. Prabakar; Hee-Je Kim

doi:10.1039/C6TA09905J

Electrolyte-imprinted graphene oxide–chitosan chelate with copper crosslinked composite electrodes for intense cyclic-stable, flexible supercapacitors†

S. Selvam,^a B. Balamuralitharan,^a S. Jegatheeswaran,^b Mi-Young Kim,^a S. N. Karthick,^a J. Anandha Raj,^b P. Boomi,^c M. Sundrarajan,^b K. Prabakar^a and Hee-Je Kim

*^a

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* Corresponding authors

^a School of Electrical Engineering, Pusan National University, Gumjeong-Ku, Busan 609-735, South Korea
E-mail: heeje@pusan.ac.kr; sselvam222@gmail.com

^b Advanced Green Chemistry Lab, Dept. of Industrial Chemistry, School of Chemical Sciences, Alagappa University, Karaikudi, India

^c Department of Bioinformatics, Alagappa University, Karaikudi, India

Abstract

Electrolyte-imprinted and copper crosslinked hybrid flexible electrodes have been considered as long-term stability supercapacitors. Graphene oxide, chitosan and copper (copper chloride) were crosslinked under ionic liquid medium using a hydrothermal technique. The fabricated flexible supercapacitor exhibits a maximum 356 F g⁻¹ specific capacitance and possesses extreme cyclic stability up to 200 000 cycles.

Journal of Materials Chemistry A

Electrolyte-imprinted graphene oxide–chitosan chelate with copper crosslinked composite electrodes for intense cyclic-stable, flexible supercapacitors†

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Electrolyte-imprinted graphene oxide–chitosan chelate with copper crosslinked composite electrodes for intense cyclic-stable, flexible supercapacitors

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