We present the results of a detailed molecular dynamics study of poly(ethyl
ene-oxide) (PEO) NaI polymer electrolytes. We focus on the influence of the
salt on the dynamics of the polymer segments. This is done by calculating
the mean square displacements of the CH2 groups and comparing the correspon
ding self-part of the intermediate scattering function with neutron spin-ec
ho experiments. Three different systems are studied: pure PEO, PEO-NaI with
reduced ion charges, and PEO-NaI with harmonic springs between the O atoms
and Na ions. Simulations of pure PEO are in good agreement with the experi
mental results, indicating the validity of the PEO model. In the polymer el
ectrolyte, a slowing down is observed in both the PEO-NaI models. Adding ha
rmonic springs between Na and O results in a better agreement with neutron
spin-echo experiments. It also affects the k dependence of the relaxation t
imes of F(k,t), changing from v = 3.3 to v = 4.0 (tau similar to k(-v)). Th
is is also observed in experiments. (C) 2001 Elsevier Science Ltd. All righ
ts reserved.