Abstract:
Gel polymer electrolytes (GPEs) are promising components in lithium ion batteries (LIBs) because of
leak proof, longer shelf life and safety. GPE consists of a porous polymer host and liquid electrolyte saturated
within and combine the advantages of both the liquid and solid components [1].
In this study, a GPE based on poly(vinyl alcohol)/maleited PVA/tetraethyl orthosilicate (PVA/PVAMA/
TEOS) polymer fibers were prepared in different weight ratios. Crosslinked nanofibrous polymer
membrane for GPE was fabricated by UV-electrospinning method. Dual crosslink polymer membranes were
obtained after heat treatment of as-prepared polymer nanofibers, due to the condensation of hydrolyzed TEOS.
The morphology of the electrospun membranes was studied using scanning electron microscopy. Thermal
properties of the membranes were investigated using thermal gravimetric analysis. The membrane has good
porosity exhibits high uptake when activated with the liquid electrolyte of lithium salt in a mixture of organic
solvents and also shows high liquid retention properties. Electrochemical impedance spectroscopy and linear
sweep voltammetry was used to determine the conductivity and electrochemical stability of prepared GPEs.
Electrochemical performance of the polymer gel electrolyte is evaluated in Li/polymer electrolyte/LiFePO4
coin cell.