Morphology, Structure, Rheology, and Thermodynamics of Piezoelectric Poly(vinylidene fluoride)−Ethylene Carbonate Thermoreversible Gel

Abstract

Poly(vinylidene fluoride) (PVF2) produces a thermoreversible gel with the important solvent, ethylene carbonate, which is used as a dispersing medium in a lithium ion battery. This is evidenced from the fibrillar network morphology and reversible first-order phase transition of the gels. The invariance of the storage and loss modulus with frequency at lower temperatures (≤110 °C) and the existence of a crossover point between them at higher temperatures further supports thermoreversible gel formation in the system. Solvent subtracted FTIR spectra of the gels indicate formation of a β polymorph, which is retained even after drying using cyclohexane as a guest solvent. The wide-angle x-ray scattering (WAXS) diffractogram of the dried gel also indicates formation of the piezoelectric β polymorph, giving a first time report of thermoreversible piezoelectric gel formation. The temperature−concentration phase diagram in conjunction with Tamman's plot indicates the presence of a polymer−solvent molecular compoun...