Morphological modulation of polypyrrole thin films through oxidizing agents and their concurrent effect on supercapacitor performance

Morphological modulation of polypyrrole thin films through oxidizing agents and their concurrent effect on supercapacitor performance

•The oxidant assisted chemical polymerization route alters the nanostructures.•The obvious influence of nanostructures on the surface area, porosity and electrochemical properties.•The nanoparticles-chain like structured ppy thin film exposes excellent electrochemical performance.•The nanoparticles...

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Bibliographic Details
Published in:Electrochimica acta Vol. 119; pp. 1 - 10
Main Authors: Shinde, Sujata S., Gund, Girish S., Dubal, Deepak P., Jambure, Supriya B., Lokhande, Chandrakant D.
Format: Journal Article
Language:English
Published: Elsevier Ltd 10-02-2014
Subjects:
Capacitors
Electrochemical analysis
Morphological modulation
Morphology
Oxidant
Oxidants
Oxidizing agents
Polypyrrole
Polypyrroles
Supercapacitor
Thin films
Three dimensional
Thin films
Supercapacitor
Oxidant
Polypyrrole
Morphological modulation
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Summary:•The oxidant assisted chemical polymerization route alters the nanostructures.•The obvious influence of nanostructures on the surface area, porosity and electrochemical properties.•The nanoparticles-chain like structured ppy thin film exposes excellent electrochemical performance.•The nanoparticles structured flexible electrodes based supercapacitor device effectively powered to LED. This investigation reports the fabrication of three different morphologies such as mud-like, cauliflower and interconnected nanoparticles of polypyrrole (ppy) thin films through oxidant assisted successive ionic layer adsorption and reaction (SILAR) method. The influence of oxidants like ammonium per sulfate (APS), ferric chloride (FC) and potassium dichromate (PDC) on structural, morphological, surface areas and electrochemical properties of ppy thin films is examined. Among three different morphologies, interconnected nanoparticles shaped ppy thin films provide a unique three-dimensional (3D) network, high surface area and meso-porous structure which satisfy the requirements for better supercapacitive electrode materials. The electrochemical tests manifest the high specific capacitance of 510Fg−1 at a current density of 0.25mAcm−2 with 85% capacitive retention after 1000cycles. These studies propose that the formation of distinct nanostructures through oxidant dependent chemical polymerization route is a straightforward way for improving the electrochemical properties of ppy based supercapacitors.
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ISSN:0013-4686
1873-3859
DOI:10.1016/j.electacta.2013.10.174