Abstract
While applying computer simulations to study semiflexible polymers, it is a primary task to determine the persistence length that characterizes the chain stiffness. One frequently asked question concerns the relationship between persistence length and the bending constant of applied bending potential. In this paper, theoretical persistence lengths of polymers with two different bending potentials were analyzed and examined by using lattice Monte Carlo simulations. We found that the persistence length was consistent with theoretical predictions only in bond fluctuation model with cosine squared angle potential. The reason for this is that the theoretical persistence length is calculated according to a continuous bond angle, which is discrete in lattice simulations. In lattice simulations, the theoretical persistence length is larger than that in continuous simulations.
Subject
Polymers and Plastics,General Chemistry
Reference46 articles.
1. The Statistical Mechanical Theory of Stiff Chains
2. Radius of gyration of comb-shaped copolymers by the wormlike chain model: Theory and its applications to MPEG-type polycarboxylate-type superplasticizers;Wang;Acta Ploym. Sin.,2017
3. The applications of the wormlike chain model on polymer physics;Jiang;Acta Phys. Sin.,2016
4. High flexibility of DNA on short length scales probed by atomic force microscopy
5. Shapes of semiflexible polymers in confined spaces;Ya;Phys. Biol.,2008
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