Structure formation of supercooled polymers in confined geometries -- A molecular-dynamics simulation study
- 1 September 2003
- journal article
- Published by Springer Nature in The European Physical Journal E
- Vol. 12 (1) , 147-151
- https://doi.org/10.1140/epje/i2003-10032-8
Abstract
Molecular-dynamics simulations of thin polymer films are performed with a recently introduced coarse-grained model. This model reproduces many features of polymer crystallization from the melt. In this work, we show how confining walls influence the structure formation depending on the degree of supercooling. Already in the melt at high temperature a preorder is induced near the walls. On lowering the temperature, crystalline order nucleates at the walls, from which it propagates into the film. We show how this growth can be influenced by prestructuring the wall.Keywords
This publication has 10 references indexed in Scilit:
- Structure Formation and Chain-Folding in Supercooled Polymer Melts. Some Ideas from MD Simulations with a Coarse-Grained ModelLecture Notes in Physics, 2003
- Computer Simulations of Polymers Close to Solid Interfaces: Some Selected TopicsInterface Science, 2003
- Influence of the crystallization conditions on the morphology of the contact layer of polyethylene crystallized on graphite: Atomic force microscopy studiesJournal of Applied Polymer Science, 2002
- Molecular dynamics simulation of polymer ordering. II. Crystallization from the meltThe Journal of Chemical Physics, 2001
- Formation of chain-folded structures in supercooled polymer meltsThe Journal of Chemical Physics, 2001
- Mapping Atomistic to Coarse-Grained Polymer Models Using Automatic Simplex Optimization To Fit Structural PropertiesMacromolecules, 2001
- Commentary on theories of polymer crystallizationThe European Physical Journal E, 2000
- What can polymer crystal structure tell about polymer crystallization processes?The European Physical Journal E, 2000
- From the melt via mesomorphic and granular crystalline layers to lamellar crystallites: A major route followed in polymer crystallization?The European Physical Journal E, 2000
- The Physics of PolymersPublished by Springer Nature ,1997