Difference between revisions of "Two-dimensional nanometric confinement of entangled polymer melts"

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(New page: Entry by Yuhang Jin, AP225 Fall 2011 == Reference == Yves Termonia, ''Polymer'', 2011, '''52''', 5193. == Keywords == entangled polymer melts, two-dimensional confinement, Monte Ca...)
 
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== Introduction ==
 
== Introduction ==
  
Behavior of polymer chains under a two-dimensional confinement is of interest and importance to a variety of engineering applications, and has significant relevance to biological macromolecules as well. Both experimental studies and numerical approaches have been devoted to this topic, with a focus on thin polymer films whose thickness is smaller than the radius of gyration <math>R_g</math>,
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Behavior of polymer chains under a two-dimensional confinement is of interest and importance to a variety of engineering applications, and has significant relevance to biological macromolecules as well. Both experimental studies and numerical approaches have been devoted to this topic, with a focus on thin polymer films whose thickness is smaller than the radius of gyration ''R<sub>g</sub>''.

Revision as of 18:18, 13 October 2011

Entry by Yuhang Jin, AP225 Fall 2011

Reference

Yves Termonia, Polymer, 2011, 52, 5193.

Keywords

entangled polymer melts, two-dimensional confinement, Monte Carlo simulation

Introduction

Behavior of polymer chains under a two-dimensional confinement is of interest and importance to a variety of engineering applications, and has significant relevance to biological macromolecules as well. Both experimental studies and numerical approaches have been devoted to this topic, with a focus on thin polymer films whose thickness is smaller than the radius of gyration Rg.