Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry

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Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry Publisher

Shayeh JS¹ ; Ehsani A² ; Nikkar A³ ; Norouzi P^{1, 4} ; Ganjali MR^{1, 4} ; Wojdyla M⁵

Source: New Journal of Chemistry Published:2015

Abstract

Ternary nanocomposite materials of polyaniline, as supercapacitor electrodes with remarkably high specific capacitance, are electrosynthesized on a glassy carbon electrode (GCE). Scanning electron micrographs clearly revealed the formation of the nanocomposites on the surface of the working electrode. The supercapacitor properties of the composite films are investigated by using cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), galvanostatic charge/discharge and fast Fourier transform continuous cyclic voltammetry (FFTCCV) technique in an acidic solution. A very high specific capacitance of 303 F g-1 is obtained from PANI in the presence of reduced graphene oxide and Au nanoparticles in an acidic electrolyte. Furthermore, the FFTCCV technique is considered as the most powerful technique in the characterization of new composite materials for supercapacitors. By using this technique, the electrochemical behavior of the system is monitored momentarily. The absolute capacitive charge changes (ΔQn) are calculated from the three-dimensional (3D) CVs of the composite electrode at a scan rate of 50 mV s-1 and a computer program algorithm. The present study introduces new nanocomposite materials for electrochemical redox capacitors with advantages that include long life cycling and stability due to the synergistic effects of each component. © The Royal Society of Chemistry and the Centre National de la Recherche Scientifique.

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Style	Citing Format
MLA	Shayeh JS, et al.. "Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry." New Journal of Chemistry, vol. 39, no. 12, 2015, pp. 9454-9460.
APA	Shayeh JS, Ehsani A, Nikkar A, Norouzi P, Ganjali MR, Wojdyla M (2015). Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry. New Journal of Chemistry, 39(12), 9454-9460.
Chicago	Shayeh JS, Ehsani A, Nikkar A, Norouzi P, Ganjali MR, Wojdyla M. "Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry." New Journal of Chemistry 39, no. 12 (2015): 9454-9460.
Harvard	Shayeh JS et al. (2015) 'Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry', New Journal of Chemistry, 39(12), pp. 9454-9460.
Vancouver	Shayeh JS, Ehsani A, Nikkar A, Norouzi P, Ganjali MR, Wojdyla M. Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry. New Journal of Chemistry. 2015;39(12):9454-9460.
BibTex	@article{ author = {Shayeh JS and Ehsani A and Nikkar A and Norouzi P and Ganjali MR and Wojdyla M}, title = {Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry}, journal = {New Journal of Chemistry}, volume = {39}, number = {12}, pages = {9454-9460}, year = {2015} }
RIS	TY - JOUR AU - Shayeh JS AU - Ehsani A AU - Nikkar A AU - Norouzi P AU - Ganjali MR AU - Wojdyla M TI - Physioelectrochemical Investigation of the Supercapacitive Performance of a Ternary Nanocomposite by Common Electrochemical Methods and Fast Fourier Transform Voltammetry JO - New Journal of Chemistry VL - 39 IS - 12 SP - 9454 EP - 9460 PY - 2015 ER -

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