Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion

Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion

The current work shows the preparation of plasticized chitosan-magnesium acetate Mg(CH<sub>3</sub>COO)<sub>2</sub>-based polymer electrolyte dispersed with nickel (Ni) metal complexes via solution casting. Investigations of electrical and electrochemical properties of the pre...

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Main Authors: Shujahadeen B Aziz, Elham M. A. Dannoun, M. H. Hamsan, Rebar T. Abdulwahid, Kuldeep Mishra, Muaffaq M. Nofal, M. F. Z. Kadir
Format: Article
Language:English
Published: MDPI AG 2021-04-01
Series:Membranes
Subjects:
plasticized polymer electrolyte
metal complex
structural analysis
impedance study
TNM and LSV analysis
CV
Online Access:https://www.mdpi.com/2077-0375/11/4/289
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spelling doaj-13a55b38d6da461aac3b8518d5dc09cd2021-04-14T23:06:12ZengMDPI AGMembranes2077-03752021-04-011128928910.3390/membranes11040289Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex DispersionShujahadeen B Aziz0Elham M. A. Dannoun1M. H. Hamsan2Rebar T. Abdulwahid3Kuldeep Mishra4Muaffaq M. Nofal5M. F. Z. Kadir6Hameed Majid Advanced Polymeric Materials Research Lab., Physics, College of Science, University of Sulaimani, Qlyasan Street, Sulaimani 46001, Kurdistan Regional Government, IraqAssociate Director of General Science Department, Woman Campus, Prince Sultan University, P. O. Box 66833, Riyadh 11586, Saudi ArabiaCentre for Foundation Studies in Science, University of Malaya, Kuala Lumpur 50603, MalaysiaHameed Majid Advanced Polymeric Materials Research Lab., Physics, College of Science, University of Sulaimani, Qlyasan Street, Sulaimani 46001, Kurdistan Regional Government, IraqDepartment of Physics and Materials Science, Jaypee University, Anoopshahr 203390, IndiaDepartment of Mathematics and General Sciences, Prince Sultan University, P. O. Box 66833, Riyadh 11586, Saudi ArabiaCentre for Foundation Studies in Science, University of Malaya, Kuala Lumpur 50603, MalaysiaThe current work shows the preparation of plasticized chitosan-magnesium acetate Mg(CH<sub>3</sub>COO)<sub>2</sub>-based polymer electrolyte dispersed with nickel (Ni) metal complexes via solution casting. Investigations of electrical and electrochemical properties of the prepared polymer composite electrolyte were carried out. The structural and optical properties of the samples were studied using X-ray diffraction (XRD) and UV-Vis spectroscopy techniques. The structural and optical outcomes revealed a clear enhancement in both absorbance and amorphous nature of the samples upon the addition of Ni metal complexes. Through the simulation of impedance data, various ion transport parameters were calculated. The electrochemical performance of the sample was examined by means of transference number measurement (TNM), linear sweep voltammetry (LSV) and cyclic voltammetry (CV) measurements. The TNM analysis confirmed the dominance of ions as the main charge carrier in the electrolyte with t<sub>ion</sub> of (0.96) compared to only (0.04) for t<sub>el</sub>. The present electrolyte was stable in the range of 0 V to 2.4 V, which was obtained from linear sweep voltammetry (LSV). A result from CV proved that the electrical double-layer capacitor (EDLC) has a capacitive behavior as no redox peaks could be observed. The presence of Ni improved the charge–discharge cycle of the EDLC due to its amorphous behavior. The average performances of the EDLC were recorded as 41.7 F/g, 95%, 5.86 Wh/kg and 628 W/kg for specific capacitance, coulombic efficiency, energy and power densities, respectively. The fabricated EDLC device was found to be stable up to 1000 cycles.https://www.mdpi.com/2077-0375/11/4/289plasticized polymer electrolytemetal complexstructural analysisimpedance studyTNM and LSV analysisCV
collection DOAJ
language English
format Article
sources DOAJ
author Shujahadeen B Aziz
Elham M. A. Dannoun
M. H. Hamsan
Rebar T. Abdulwahid
Kuldeep Mishra
Muaffaq M. Nofal
M. F. Z. Kadir
spellingShingle Shujahadeen B Aziz
Elham M. A. Dannoun
M. H. Hamsan
Rebar T. Abdulwahid
Kuldeep Mishra
Muaffaq M. Nofal
M. F. Z. Kadir
Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion
Membranes
plasticized polymer electrolyte
metal complex
structural analysis
impedance study
TNM and LSV analysis
CV
author_facet Shujahadeen B Aziz
Elham M. A. Dannoun
M. H. Hamsan
Rebar T. Abdulwahid
Kuldeep Mishra
Muaffaq M. Nofal
M. F. Z. Kadir
author_sort Shujahadeen B Aziz
title Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion
title_short Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion
title_full Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion
title_fullStr Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion
title_full_unstemmed Improving EDLC Device Performance Constructed from Plasticized Magnesium Ion Conducting Chitosan Based Polymer Electrolytes via Metal Complex Dispersion
title_sort improving edlc device performance constructed from plasticized magnesium ion conducting chitosan based polymer electrolytes via metal complex dispersion
publisher MDPI AG
series Membranes
issn 2077-0375
publishDate 2021-04-01
description The current work shows the preparation of plasticized chitosan-magnesium acetate Mg(CH<sub>3</sub>COO)<sub>2</sub>-based polymer electrolyte dispersed with nickel (Ni) metal complexes via solution casting. Investigations of electrical and electrochemical properties of the prepared polymer composite electrolyte were carried out. The structural and optical properties of the samples were studied using X-ray diffraction (XRD) and UV-Vis spectroscopy techniques. The structural and optical outcomes revealed a clear enhancement in both absorbance and amorphous nature of the samples upon the addition of Ni metal complexes. Through the simulation of impedance data, various ion transport parameters were calculated. The electrochemical performance of the sample was examined by means of transference number measurement (TNM), linear sweep voltammetry (LSV) and cyclic voltammetry (CV) measurements. The TNM analysis confirmed the dominance of ions as the main charge carrier in the electrolyte with t<sub>ion</sub> of (0.96) compared to only (0.04) for t<sub>el</sub>. The present electrolyte was stable in the range of 0 V to 2.4 V, which was obtained from linear sweep voltammetry (LSV). A result from CV proved that the electrical double-layer capacitor (EDLC) has a capacitive behavior as no redox peaks could be observed. The presence of Ni improved the charge–discharge cycle of the EDLC due to its amorphous behavior. The average performances of the EDLC were recorded as 41.7 F/g, 95%, 5.86 Wh/kg and 628 W/kg for specific capacitance, coulombic efficiency, energy and power densities, respectively. The fabricated EDLC device was found to be stable up to 1000 cycles.
topic plasticized polymer electrolyte
metal complex
structural analysis
impedance study
TNM and LSV analysis
CV
url https://www.mdpi.com/2077-0375/11/4/289
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AT elhammadannoun improvingedlcdeviceperformanceconstructedfromplasticizedmagnesiumionconductingchitosanbasedpolymerelectrolytesviametalcomplexdispersion
AT mhhamsan improvingedlcdeviceperformanceconstructedfromplasticizedmagnesiumionconductingchitosanbasedpolymerelectrolytesviametalcomplexdispersion
AT rebartabdulwahid improvingedlcdeviceperformanceconstructedfromplasticizedmagnesiumionconductingchitosanbasedpolymerelectrolytesviametalcomplexdispersion
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