Nano-Metal Oxide Based Supercapacitor via Electrochemical Deposition
Saima G Sayyed, Mahadeo A Mahadik, Arif V Shaikh, Jum Suk Jang and Habib M Pathan
1 Department of Electronic Science & PG Center, Poona College of Arts, Science and Commerce, Camp, Pune, Maharashtra, 411001, India
2 Division of Biotechnology, Chonbuk National University, Iskan, 570-752, Republic of Korea
3 Advanced Physics Laboratory, Department of Physics, Savitribai Phule Pune University, Pune, Maharashtra, 411007, India
Abstract
In this rapid growing world, the demand of alternate or non-conventional energy sources with high density and power has been tremendously increased. Supercapacitor is one of the promising energy storage devices which possess high specific capacitance, high power density and long life cycle. The performance of supercapacitors is evaluated by its electrode materials. Among the various supercapacitor electrode materials, recent research focused on synthesis of transition metal oxides/ hydroxides, carbon metals and polymers. Transition metal oxides such as manganese oxide (MnO2), ruthenium oxide (RuO2), cobalt oxide (Co3O2), nickel oxides (NiO) etc. have been widely used as supercapacitor electrode materials for storing the potential energy. In this paper, we explored the details of metal oxide material based supercapacitor electrodes and their composition via electrochemical deposition technique. We also discussed the basic parameters involved in supercapacitor studies and advantages of electrochemical deposition technique through analysis of the literature.
Publication details
Received: 30 Nov 2018
Revised: 05 Feb 2019
Accepted: 06 Feb 2019
Published online: 07 Feb 2019
Article type:
Review Paper
DOI:
10.30919/esee8c211
Volume:
3
Page:
25-44
Citation:
ES Energy & Environment, 2019, 3, 25-44
Permissions:
Copyright
Number of downloads:
3652
Citation Information:
22
Description:
Various transition metal oxides/hydroxides used for supercapacitor electrodes via electrochemical de....
Various transition metal oxides/hydroxides used for supercapacitor electrodes via electrochemical deposition were reviewed.
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