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Publication Type : Journal Article
Thematic Areas : Nanosciences and Molecular Medicine
Publisher : Journal of Materials Chemistry
Source : Journal of Materials Chemistry, Volume 22, Number 38, p.20465-20471 (2012)
Keywords : Aspect ratio, BET analysis, Capacitance, Capacitance values, Capacitive behavior, Capacitors, Charge discharge curves, Cyclic stability, Cyclic voltammetry, Electrochemical parameters, Electrodes, Electrolytes, Energy storage applications, High surface area, Hybrid supercapacitors, Hydrothermally, Internal resistance, Manganese oxide, Nanowires, Reaction behavior, Redox reactions, Relative contribution, Super capacitor, Surface morphology, Thin films, Titanium, Titanium foils, Ultra-fines, Working models
Campus : Kochi
School : Center for Nanosciences
Center : Amrita Center for Nanosciences and Molecular Medicine Move, Nanosciences
Department : Nanosciences and Molecular Medicine
Year : 2012
Abstract : The present study demonstrates a novel approach by which titanium foils coated with MnO2 nanowires can be processed into a high surface area electrode for rechargeable energy storage applications. A detailed study has been performed to elucidate how surface morphology and redox reaction behaviors underlying these electrodes impact the cyclic and capacitive behavior of the electrode. These nanowires were synthesized hydrothermally and exhibited an aspect ratio in the order of 102. BET analysis revealed that these MnO2 nanowires show a high surface area of 44 m2 g -1. From the analysis of the relevant electrochemical parameters, an intrinsic correlation between the capacitance, internal resistance and the surface morphology has been deduced and explained on the basis of relative contributions from the faradic properties of the MnO2 in different electrolytes. Depending on the type of surface morphology incorporated, these thin film nanowire electrodes exhibited specific mass capacitance value as high as 1050 F g-1 and 750 F g-1 measured from cyclic voltammetry and charge-discharge curves respectively. It has been shown that electrodes based on such nanowires can allow significant room for improvement in the cyclic stability of a hybrid supercapacitor/battery system. Further, a working model supercapacitor in cylindrical form is also shown exhibiting a capacitance of 10 F. © 2012 The Royal Society of Chemistry.
Cite this Research Publication : R. Ranjusha, A. Nair, S., Ramakrishna, S., Anjali, P., Sujith, K., Subramanian, K. R. V., Sivakumar, N., Kim, T. N., Nair, S. V., and Balakrishnan, A., “Ultra fine MnO2 nanowire based high performance thin film rechargeable electrodes: Effect of surface morphology, electrolytes and concentrations”, Journal of Materials Chemistry, vol. 22, pp. 20465-20471, 2012.