Litcius/Paper detail

Numerical calculation of free-energy barriers for entangled polymer nucleation

Xiaoliang Tang, Fucheng Tian, Tingyu Xu, Liangbin Li, Aleks Reinhardt

2020The Journal of Chemical Physics13 citationsDOIOpen Access PDF

Abstract

The crystallization of entangled polymers from their melt is investigated using computer simulation with a coarse-grained model. Using hybrid Monte Carlo simulations enables us to probe the behavior of long polymer chains. We identify solid-like beads with a centrosymmetry local order parameter and compute the nucleation free-energy barrier at relatively high supercooling with adaptive-bias windowed umbrella sampling. Our results demonstrate that the critical nucleus sizes and the heights of free-energy barriers do not significantly depend on the molecular weight of the polymer; however, the nucleation rate decreases with the increase in molecular weight. Moreover, an analysis of the composition of the critical nucleus suggests that intra-molecular growth of the nucleated cluster does not contribute significantly to crystallization for this system.

Topics & Concepts

NucleationSupercoolingCrystallizationCrystallization of polymersPolymerMaterials scienceCluster (spacecraft)Monte Carlo methodChemical physicsNucleusMolecular dynamicsStatistical physicsClassical nucleation theoryThermodynamicsWork (physics)Order (exchange)Polymer blendPhase (matter)Polymer crystallization and propertiesPolymer Foaming and CompositesMaterial Dynamics and Properties
Numerical calculation of free-energy barriers for entangled polymer nucleation | Litcius