Chain-length-dependent correlated molecular motion in polymers

Abstract

We show how dynamic heterogeneities (DH), a hallmark of glass-forming materials, depend on chain flexibility and chain length in polymers. For highly flexible polymers, a relatively large number of monomers (Nc500) undergo correlated motion at the glass transition temperature Tg, independent of molecular weight (M). In contrast, less flexible polymers show a complex Nc(M) behaviour divided into three regimes, consistent with observation in both Tg(M) and chain conformational structure. For short oligomers ( 2 Kuhn steps), a transition from mainly intermolecular correlations and Nc 200, to strongly intramolecular correlations and Nc< 50 (roughly the molecular size) is observed; for longer chains, Nc increases weakly, before saturating. For poly(methyl methacrylate), a remarkable similarity is found between Nc(M) and the M-dependent ratio of the activation barriers of the structural (α) and secondary (β) relaxations. Our results suggest a link between the DH length-scale and the number of β relaxation events jointly-activated to facilitate the α relaxation.

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