posted on 2019-12-31, 13:35authored byZidan Zhang, Bill K. Wheatle, Jakub Krajniak, Jordan R. Keith, Venkat Ganesan
We probe the ion mobilities, transference numbers, and
inverse Haven ratio of ionic liquids and polymerized ionic liquids
as a function of their molecular weight using a combination of atomistic
equilibrium and nonequilibrium molecular dynamics simulations. In
contrast to expectations, we demonstrate that the inverse Haven ratio
increases with increasing degree of polymerization (N) and then decreases at larger N. For a fixed center
of mass reference frame, we demonstrate that such results arise as
a consequence of the strong cation–cation correlated motions,
which exceed (in magnitude) the self-diffusivity of cations. Together,
our findings challenge the premise underlying the pursuit of pure
polymeric ionic liquids as high transference number, single-ion conducting
electrolytes.