A SnO 2 QDs/GO/PPY ternary composite film as positive and graphene oxide/charcoal as negative electrodes assembled solid state asymmetric supercapacitor for high energy storage applications

A SnO 2 QDs/GO/PPY ternary composite film as positive and graphene oxide/charcoal as negative electrodes assembled solid state asymmetric supercapacitor for high energy storage applications

The work demonstrates tin oxide quantum dots/graphene oxide/polypyrrole (SnO QDs/GO/PPY) ternary composite deposited on titanium foil as a positive electrode and graphene oxide (GO)/charcoal on titanium foil as negative electrode separated by polyvinyl alcohol/potassium hydroxide (PVA/KOH) gel-elect...

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Bibliographic Details
Published in:RSC advances Vol. 11; no. 45; pp. 27801 - 27811
Main Authors: Vandana, M, Nagaraju, Y S, Ganesh, H, Veeresh, S, Vijeth, H, Basappa, M, Devendrappa, H
Format: Journal Article
Language:English
Published: England 16-08-2021
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Summary:The work demonstrates tin oxide quantum dots/graphene oxide/polypyrrole (SnO QDs/GO/PPY) ternary composite deposited on titanium foil as a positive electrode and graphene oxide (GO)/charcoal on titanium foil as negative electrode separated by polyvinyl alcohol/potassium hydroxide (PVA/KOH) gel-electrolyte as a solid-state asymmetric supercapacitor for high energy storage applications. Here, tin oxide quantum dots (SnO QDs) were successfully synthesized by a hydrothermal technique, and SnO QDs/GO/PPY ternary composite was synthesized by an method with pyrrole monomer, SnO , and GO. A pH value controlled, which maintained the uniform size of SnO QDs dispersed on PPY, through GO ternary composite was used for fabricating the asymmetric supercapacitor electrode with the configuration (SnO QDs/GO/PPY)/GO/charcoal (85 : 10 : 5). The device achieved the highest specific capacitance of 1296 F g , exhibited an energy density of 29.6 W h kg and the highest power density of 5310.26 W kg in the operating voltage from 0 to 1.2 V. The device also possessed excellent reliability and retained the capacitance of 90% after 11 000 GCD cycles. This ternary composite is a prominent material for potential applications in next-generation energy storage and portable electronic devices.
ISSN:2046-2069
2046-2069
DOI:10.1039/D1RA03423E