Reduced Graphene Oxide Embedded V2O5 Nanorods and Porous Honey Carbon as High Performance Electrodes for Hybrid Sodium-ion Supercapacitors

Kiruthiga, R. and Nithya, C. and Karvembu, R. and Venkata Rami Reddy, B. (2017) Reduced Graphene Oxide Embedded V2O5 Nanorods and Porous Honey Carbon as High Performance Electrodes for Hybrid Sodium-ion Supercapacitors. Electrochimica Acta, 256. pp. 221-231. ISSN 0013-4686

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Official URL: http://www.elsevier.com/locate/electacta

Abstract

Attaining high energy density and power density in a single energy storage device is still a major challenge for electrochemical energy storage research community. Sodium-ion hybrid supercapacitor is a sustainable energy storage system which accomplishes the gap between battery and supercapacitor comprises of high energy density-battery type faradaic anode and high power density-supercapacitor type non-faradaic cathode. Here we have reported high surface area (1554 m2 g�1 ) activated porous carbon obtained from naturally occurring viscous liquid honey as a cathode and sol-gel derived, V2O5 nanorods anchored reduced graphene oxide (rGO) nanocomposite as an anode for non- aqueous sodiumion capacitor. When explored honey derived carbon as a non-faradaic cathode, it exhibits a higher specific capacitance of 224 F g�1 and V2O5@rGO anode delivers the maximum capacitance of 289 F g�1 at 0.01 A g�1 vs Na/Na+ . The prepared V2O5@rGO anode has long stable cycle life (V2O5 nanorods@rGO retains 85% of the initial capacitance (112.2 F g�1 ) at the current density of 0.06 A g�1 after 1000 cycles). The assembled sodium-ion capacitor (NIC) using honey derived activated carbon (AC) and V2O5@rGO anode delivers the energy density of 65Wh kg�1 and power density of 72W kg�1 at 0.03 A g�1. The capacity retention is 74% after 1000 cycles at the current density of 0.06 Ag�1. The assembled sodium-ion hybrid capacitor delivers maximum energy and power density and exhibits very long stable cycle life

Item Type:	Article
Uncontrolled Keywords:	Honey derived carbon;V2O5@rGO;insertion electrode;sodium-ion capacitor nanocomposite
Subjects:	Electrodics and Electrocatalysis Nanotechnology Electrochemical Power Sources
Divisions:	UNSPECIFIED
Depositing User:	Dr. N Meyyappan
Date Deposited:	17 May 2019 10:31
Last Modified:	17 May 2019 10:31
URI:	http://cecri.csircentral.net/id/eprint/3234

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