Poly(vynilidene fluoride) P(VdF)/hexafluoropropylene (HFP) copolymers are w
ell suited to prepare hybrid electrolytes which can be useful in solid-stat
e electrochemical devices. We study with modulated differential scanning ca
lorimetry (MDSC) and nuclear magnetic resonance (NMR) the polymer-solution
interactions in 30 wt% P(VdF-HFP)-70 wt% (ethylene carbonate-propylene carb
onate-LiN(CF3SO2)(3)) hybrid electrolyte. We show that both Li-7-NMR linesh
ape narrowing and spin-lattice relaxation are driven by the ion dynamics. T
he behaviour of the longitudinal relaxation times, T-1,, confirms that the
host polymer matrix simply behaves like an inert cage for the cations, at l
east at the polymer-to-solution ratio examined in the present study. These
results are confirmed by C-13-NMR-MAS data, which show that the presence of
the polymer does not significantly affect the chemical shift changes induc
ed in the EC/PC carbons by the imide salt. (C) 1999 Elsevier Science B.V. A
ll rights reserved.