We have investigated the molecular mechanisms of primordial stages of polymer crystallization from solutions using Langevin dynamics simulations and theoretical models. The key feature that distinguishes polymers from small molecules at early stages of nucleation is that, in the case of polymers, a single chain can participate in several nuclei. This results in entropic frustration, leading to spontaneously selected temporary finite structures during nucleation. The experimental observation of finite lamellar thickness (much smaller than extended chain dimension) has been histor-ically attributed to kinetic origins. Our simulations and an exactly solvable model to account for chain entropy show that the finite lamellar thickness is actually...
The paper presents numerical results from extensive molecular-dynamics simulations of the crystalliz...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Using a previously developed simulation model we study the changes in morphology of two-dimensional ...
In this work, we have studied crystallization in short polymer chains using molec-ular dynamics simu...
We report a numerical study of the free energy barrier for crystallization and melting of a single ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2017.Cata...
We develop several new algorithms using molecular simulation to investigate the nucleation barrier o...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
We carried out molecular dynamics simulations to study the crystallization of long polymers in a con...
International audienceSome of the theories involved in the understanding of polymer crystallization ...
Using a realistic united-atom force field, molecular dynamics simulations were performed to study ho...
We carried out molecular dynamics simulations to study the crystallization of long polymers in a con...
Large scale molecular dynamics simulations were carried out to study the kinetics of polymer melt cr...
Large scale molecular dynamics simulations of bulk melts of polar (poly(vinylidene fluoride) (pVDF))...
peer reviewedWe have performed molecular dynamics simulations to study the mechanism of crystallizat...
The paper presents numerical results from extensive molecular-dynamics simulations of the crystalliz...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Using a previously developed simulation model we study the changes in morphology of two-dimensional ...
In this work, we have studied crystallization in short polymer chains using molec-ular dynamics simu...
We report a numerical study of the free energy barrier for crystallization and melting of a single ...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2017.Cata...
We develop several new algorithms using molecular simulation to investigate the nucleation barrier o...
This study reveals important features of polymer crystal formation at high-driving forces in entangl...
We carried out molecular dynamics simulations to study the crystallization of long polymers in a con...
International audienceSome of the theories involved in the understanding of polymer crystallization ...
Using a realistic united-atom force field, molecular dynamics simulations were performed to study ho...
We carried out molecular dynamics simulations to study the crystallization of long polymers in a con...
Large scale molecular dynamics simulations were carried out to study the kinetics of polymer melt cr...
Large scale molecular dynamics simulations of bulk melts of polar (poly(vinylidene fluoride) (pVDF))...
peer reviewedWe have performed molecular dynamics simulations to study the mechanism of crystallizat...
The paper presents numerical results from extensive molecular-dynamics simulations of the crystalliz...
A simulation approach to polymer crystallization is presented. The molecules approach crystallizatio...
Using a previously developed simulation model we study the changes in morphology of two-dimensional ...