Multiscale molecular modeling of structural properties of amorphous perfluoro-poly(ethylene oxide)

Multiscale molecular modeling was developed to characterize amorphous structures of perfluoro-poly(ethylene oxide), PF-PEO, in comparison to normal poly(ethylene oxide), N-PEO. The rotational isomeric state (RIS) models derived from ab initio calculation and the Lennard-Jones (LJ) potential energy with the proposed parameters were employed to treat the intramolecular and non-bonded interaction of coarse-grained (CG) models These CG models can be equilibrated effectively by the Monte Carlo (MC) algorithm. Fully atomistic models of amorphous PF-PEO and N-PEO structures can be successfully generated via the reverse-mapping procedure. Compared to N-PEO, PF-PEO tends to have a smaller chain dimension with increased amplitudes of gauche conformation in CC bonds although a significantly large fraction of trans conformation in OC and CO bonds. The amorphous structure of PF-PEO exhibits a larger separation of the atom-pair correlation function and a lower amplitude of solubility parameter. The predicted X-ray scatterings are provided for comparison with experiments.