Journal
GELS
Volume 8, Issue 6, Pages -Publisher
MDPI
DOI: 10.3390/gels8060363
Keywords
gel; polymer electrolyte; impedance spectroscopy; ATR-FT-IR; DSC; linear sweep voltammetry; IR modes; plasticizer effect; monomer
Categories
Funding
- POR CALABRIA FESR-FSE 2014-2020-ASSE I-Promozione della ricerca e dell'innovazione obiettivo specifico 1.2 Azione 1.2.2Project: MERAVIGLIE
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This work investigates the electrochemical properties of PMMA-based gel polymer electrolytes, focusing on the effect of salt concentration and plasticizers on the conductivity and stability of the electrolyte. The study utilizes various characterization techniques such as conductivity measurements, thermal analysis, anodic stability testing, and FTIR spectroscopy. The findings reveal that the presence of unreacted PMMA monomer enhances ion conduction, and the addition of plasticizers improves the electrolyte's performance.
This work describes the electrochemical properties of a type of PMMA-based gel polymer electrolytes (GPEs). The gel polymer electrolyte systems at a concentration of (20:80) % w/w were prepared from poly (methyl methacrylate), lithium perchlorate LiClO4 and single plasticizer propylene carbonate (PMMA-Li-PC) and a mixture of plasticizers made by propylene carbonate and ethylene carbonate in molar ratio 1:1, (PMMA-Li-PC-EC). Different salt concentrations (0.1 M, 0.5 M, 1 M, 2 M) were studied. The effect of different plasticizers (single and mixed) on the properties of gel polymer electrolytes were considered. The variation of conductivity versus salt concentration, thermal properties using DSC and TGA, anodic stability and FTIR spectroscopy were used in this study. The maximum ionic conductivity of sigma = 0.031 S/cm were obtained for PMMA-Li-PC-EC with a salt concentration equal to 1 M. Ion-pairing phenomena and all ion associations were observed between lithium cations, plasticizers and host polymers through FTIR spectroscopy. The anodic stability of the PMMA-based gel polymer electrolytes was recorded up to 4 V. The glass temperatures of these electrolytes were estimated. We found they were dependent on the plasticization effect of plasticizers on the polymer chains and the increase of the salt concentration. Unexpectedly, it was determined that an unreacted PMMA monomer was present in the system, which appears to enhance ion conduction. The presence and possibly the addition of a monomer may be a technique for increasing ion conduction in other gel systems that warrants further study.
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