In this study, we experimentally measure the viscosity, η, and ionic conductivity, σ, of 1 mol kg-1 LiPF6 dissolved in a binary solvent of ethylene carbonate (EC) and propylene carbonate (PC) by varying the EC content from 0 to 60 vol%. Replacing EC with PC does not significantly influence on the mechanism of flow and ionic conduction. The state of solvent solvating to Li+ is analyzed using Raman spectra and 13C-NMR; the quantitative analysis suggests that the preference of EC in the Li+ solvation shell is almost similar to that of PC. The diffusion coefficient, D, of each species, Li+, PF6-, EC, and PC, is determined by pulse-gradient spin-echo NMR. In the electrolyte system dealt in this study, the molar conductivity is dominated by only the D of the charge carriers. The hydrodynamic Stokes radius of all constituent species is expressed in terms of D and η using the Stokes–Einstein relation.
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