Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte
Characterizations were carried out to study on a new plasticized solid polymer electrolyte that was composed of blends of poly(vinyl chloride) (PVC), liquid 50% epoxidized natural rubber (LENR50), ethylene carbonate, and polypropylene carbonate. This freestanding solid polymer electrolyte (SPE) was...
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my.uniten.dspace-303152023-12-29T15:46:37Z Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte Lee T.K. Afiqah S. Ahmad A. Dahlan H.M. Rahman M.Y.A. 8610515400 57199606344 16306307100 6508121460 55347217400 Ionic conductivity LENR50 PVC Solid polymers electrolyte Chlorine compounds Differential scanning calorimetry Ethylene Fourier transform infrared spectroscopy Ionic conduction in solids Ionic conductivity Liquids Microporosity Polyelectrolytes Polymers Scanning electron microscopy X ray diffraction Analysis and characterization ATR FTIR Coordination bonding Crystallinities Differential scanning calorimeters DSC studies Electrolyte matrix Epoxidized natural rubber Ethylene carbonate Fourier transform infrared Glass temperatures Impedance spectroscopy LENR50 Low molecular weight Micropores Polypropylene carbonate Solid polymer electrolytes Solid polymers Solution-casting technique Temperature dependence Polyvinyl chlorides Characterizations were carried out to study on a new plasticized solid polymer electrolyte that was composed of blends of poly(vinyl chloride) (PVC), liquid 50% epoxidized natural rubber (LENR50), ethylene carbonate, and polypropylene carbonate. This freestanding solid polymer electrolyte (SPE) was successfully prepared by solution casting technique. Further analysis and characterizations were carried out by using scanning electron microscopy (SEM), X-ray diffraction, differential scanning calorimeter (DSC), Fourier transform infrared (ATR-FTIR), and impedance spectroscopy (EIS). The SEM results show that the morphologies of SPEs are compatible with good homogeneity. No agglomeration was observed. However, upon addition of salt, formation of micropores occurred. It is worth to note that micropores improve the mobility of ions in the SPE system, thus increased the ionic conductivity whereas the crystallinity analysis for SPEs indicates that the LiClO 4 salt is well complexed in the plasticized PVC-LENR50 as no sharp crystallinity peak was observed for 5-15% wt. LiClO 4. This implies that LiClO 4 salt interacts with polymer host as more bonds are form via coordination bonding. In DSC study, it is found that the glass temperature (T g) increased with the concentration of LiClO 4. The lowest T g was obtained at 41.6 �C when incorporated with 15% wt. LiClO 4. The features of complexation in the electrolyte matrix were studied using ATR-FTIR at the peaks of C=O, C-O-C, and C-Cl. In EIS analysis, the highest ionic conductivity obtained was 1.20� 10 -3 S cm -1 at 15% wt. LiClO 4 at 353 K. Final 2023-12-29T07:46:36Z 2023-12-29T07:46:36Z 2012 Article 10.1007/s10008-011-1633-z 2-s2.0-84865541626 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84865541626&doi=10.1007%2fs10008-011-1633-z&partnerID=40&md5=b7ef4a379fd55d1b75a868d387e6cf84 https://irepository.uniten.edu.my/handle/123456789/30315 16 6 2251 2260 Scopus |
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Ionic conductivity LENR50 PVC Solid polymers electrolyte Chlorine compounds Differential scanning calorimetry Ethylene Fourier transform infrared spectroscopy Ionic conduction in solids Ionic conductivity Liquids Microporosity Polyelectrolytes Polymers Scanning electron microscopy X ray diffraction Analysis and characterization ATR FTIR Coordination bonding Crystallinities Differential scanning calorimeters DSC studies Electrolyte matrix Epoxidized natural rubber Ethylene carbonate Fourier transform infrared Glass temperatures Impedance spectroscopy LENR50 Low molecular weight Micropores Polypropylene carbonate Solid polymer electrolytes Solid polymers Solution-casting technique Temperature dependence Polyvinyl chlorides |
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Ionic conductivity LENR50 PVC Solid polymers electrolyte Chlorine compounds Differential scanning calorimetry Ethylene Fourier transform infrared spectroscopy Ionic conduction in solids Ionic conductivity Liquids Microporosity Polyelectrolytes Polymers Scanning electron microscopy X ray diffraction Analysis and characterization ATR FTIR Coordination bonding Crystallinities Differential scanning calorimeters DSC studies Electrolyte matrix Epoxidized natural rubber Ethylene carbonate Fourier transform infrared Glass temperatures Impedance spectroscopy LENR50 Low molecular weight Micropores Polypropylene carbonate Solid polymer electrolytes Solid polymers Solution-casting technique Temperature dependence Polyvinyl chlorides Lee T.K. Afiqah S. Ahmad A. Dahlan H.M. Rahman M.Y.A. Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
description |
Characterizations were carried out to study on a new plasticized solid polymer electrolyte that was composed of blends of poly(vinyl chloride) (PVC), liquid 50% epoxidized natural rubber (LENR50), ethylene carbonate, and polypropylene carbonate. This freestanding solid polymer electrolyte (SPE) was successfully prepared by solution casting technique. Further analysis and characterizations were carried out by using scanning electron microscopy (SEM), X-ray diffraction, differential scanning calorimeter (DSC), Fourier transform infrared (ATR-FTIR), and impedance spectroscopy (EIS). The SEM results show that the morphologies of SPEs are compatible with good homogeneity. No agglomeration was observed. However, upon addition of salt, formation of micropores occurred. It is worth to note that micropores improve the mobility of ions in the SPE system, thus increased the ionic conductivity whereas the crystallinity analysis for SPEs indicates that the LiClO 4 salt is well complexed in the plasticized PVC-LENR50 as no sharp crystallinity peak was observed for 5-15% wt. LiClO 4. This implies that LiClO 4 salt interacts with polymer host as more bonds are form via coordination bonding. In DSC study, it is found that the glass temperature (T g) increased with the concentration of LiClO 4. The lowest T g was obtained at 41.6 �C when incorporated with 15% wt. LiClO 4. The features of complexation in the electrolyte matrix were studied using ATR-FTIR at the peaks of C=O, C-O-C, and C-Cl. In EIS analysis, the highest ionic conductivity obtained was 1.20� 10 -3 S cm -1 at 15% wt. LiClO 4 at 353 K. |
author2 |
8610515400 |
author_facet |
8610515400 Lee T.K. Afiqah S. Ahmad A. Dahlan H.M. Rahman M.Y.A. |
format |
Article |
author |
Lee T.K. Afiqah S. Ahmad A. Dahlan H.M. Rahman M.Y.A. |
author_sort |
Lee T.K. |
title |
Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
title_short |
Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
title_full |
Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
title_fullStr |
Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
title_full_unstemmed |
Temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
title_sort |
temperature dependence of the conductivity of plasticized poly(vinyl chloride)-low molecular weight liquid 50% epoxidized natural rubber solid polymer electrolyte |
publishDate |
2023 |
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1806428244094746624 |