Hydrogen bonding exchange and supramolecular dynamics of monohydroxy alcohols

Abstract

This Letter unravels hydrogen bonding dynamics and their relationship with supramolecular relaxations of monohydroxy alcohols (MAs) at intermediate times. Rheological modulus of MAs exhibit Rouse scaling relaxation of G(t) ~ t(-1/2) switching to G(t) ~ t(-1) at time taum before their terminal time. Meanwhile, dielectric spectroscopy reveals clear signatures of new supramolecular dynamics matching with taum from rheology. Interestingly, the characteristic time, taum, follows an Arrhenius-like temperature dependence over exceptionally wide temperatures and agrees well with the hydrogen bonding exchange time from nuclear magnetic resonance measurements. These observations demonstrate the presence of collective Rouse-like sub-chain motions and the active chain-swapping of MAs at intermediate times. Moreover, detailed theoretical analyses point out explicitly that the hydrogen bonding exchange truncates the Rouse-type supramolecular dynamics and triggers the chain-swapping processes, supporting a recently proposed living polymer model.