<strong>Efficient Electrode Material based on Carbon Cloth Supported Polyaniline/Reduced Graphene Oxide Composites for Supercapacitor Application</strong>
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Title Statement |
<strong>Efficient Electrode Material based on Carbon Cloth Supported Polyaniline/Reduced Graphene Oxide Composites for Supercapacitor Application</strong> |
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Added Entry - Uncontrolled Name |
Gupta, Anjli ; Maharshi Dayanand University Rohtak Ohlan, Anil ; Department of Physics, Maharshi Dayanand University, Rohtak Singh, Kuldeep ; CSIR-Central Electrochemical Research Institute (CECRI) Chennai Unit, CSIR Madras Complex, Taramani, Chennai – 600113, India |
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Uncontrolled Index Term |
Condensed Matter supercapaictor; conducting polymer hydrogels; polyaniline; reduced graphene oxide |
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Summary, etc. |
<p class="NanotechMainText">Nowadays, world energy infrastructure is being stretched due to imbalance between energy production and energy consumption; renewable & sustainable energy storage and conversion techniques could resolve this issue. Thus global energy requirements, limited availability of fossil fuels and environmental crisis drive the expansion of alternative or non- conventional energy sources with high energy and power densities. Electrochemical capacitors or supercapacitors, with a combined form of high power density and energy density, have acquired a stunning acceptance towards the field of electrochemical energy storage. Supercapacitors are used in electric vehicles, mobile phones, digital cameras, wearable devices, portable devices and uninterruptible power supplies (UPS) etc. Here, we have reported the binder free carbon cloth supported polyaniline/reduced graphene oxide (PRGO) composite hydrogel as a high performance supercapacitor electrode synthesized by a facile chemical polymerization method using phytic acid (PA). The electrochemical performance of binder free carbon cloth based PRGO composite hydrogel electrode has been analysed using cyclic voltammetry (CV), and galvanostatic charge-discharge (GCD) techniques. The high specific capacitance (C<sub>S</sub>) ~ 235.32 F g<sup>-1 </sup>has been obtained for the PRGO composite hydrogel @cc in 1 M H<sub>2</sub>SO<sub>4</sub>. The electrochemical results show that the binder free carbon cloth based PRGO composite hydrogel electrode is a promising candidate for supercapacitors.</p> |
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Publication, Distribution, Etc. |
Indian Journal of Pure & Applied Physics (IJPAP) 2021-01-08 10:02:07 |
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Electronic Location and Access |
application/pdf http://op.niscair.res.in/index.php/IJPAP/article/view/39001 |
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Data Source Entry |
Indian Journal of Pure & Applied Physics (IJPAP); ##issue.vol## 59, ##issue.no## 1 (2021): Indian Journal of Pure & Applied Physics |
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Language Note |
en |
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Terms Governing Use and Reproduction Note |
Except where otherwise noted, the Articles on this site are licensed under Creative Commons License: CC Attribution-Noncommercial-No Derivative Works 2.5 India © 2015. The Council of Scientific & Industrial Research, New Delhi. |
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