Phase transitions in polymethylene single chains from Monte Carlo simulated annealing

Naoki Karasawa; William A. Goddard

doi:10.1021/j100331a055

Phase transitions in polymethylene single chains from Monte Carlo simulated annealing

Naoki Karasawa
, William A. Goddard

California Institute of Technology

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Folding of single isolated polymethylene chains was examined with Monte Carlo simulated annealing. All carbon and hydrogen atoms were considered explicitly by using van der Waals plus torsional potential functions. The calculations allowed continuous variation in each torsional degree of freedom. In addition, we examined the consequences of simplifying the calculations by restricting the carbons to be on a diamond lattice. Ensembles of conformations for larger chains (C_NH_2N+2, with N = 16, 32, 64) all show a transition from a random coil at high temperature to a globular form at low temperature. For longer chains (N ≥ 64), this globularization transition is well described by the mean-field theory of Sanchez.

langue originale	Anglais
Pages (de - à)	5828-5832
Nombre de pages	5
journal	Journal of Physical Chemistry
Volume	92
Numéro de publication	20
Les DOIs	https://doi.org/10.1021/j100331a055
état	Publié - 1 janv. 1988
Modification externe	Oui

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10.1021/j100331a055

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title = "Phase transitions in polymethylene single chains from Monte Carlo simulated annealing",

abstract = "Folding of single isolated polymethylene chains was examined with Monte Carlo simulated annealing. All carbon and hydrogen atoms were considered explicitly by using van der Waals plus torsional potential functions. The calculations allowed continuous variation in each torsional degree of freedom. In addition, we examined the consequences of simplifying the calculations by restricting the carbons to be on a diamond lattice. Ensembles of conformations for larger chains (CNH2N+2, with N = 16, 32, 64) all show a transition from a random coil at high temperature to a globular form at low temperature. For longer chains (N ≥ 64), this globularization transition is well described by the mean-field theory of Sanchez.",

author = "Naoki Karasawa and Goddard, \{William A.\}",

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AU - Goddard, William A.

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N2 - Folding of single isolated polymethylene chains was examined with Monte Carlo simulated annealing. All carbon and hydrogen atoms were considered explicitly by using van der Waals plus torsional potential functions. The calculations allowed continuous variation in each torsional degree of freedom. In addition, we examined the consequences of simplifying the calculations by restricting the carbons to be on a diamond lattice. Ensembles of conformations for larger chains (CNH2N+2, with N = 16, 32, 64) all show a transition from a random coil at high temperature to a globular form at low temperature. For longer chains (N ≥ 64), this globularization transition is well described by the mean-field theory of Sanchez.

AB - Folding of single isolated polymethylene chains was examined with Monte Carlo simulated annealing. All carbon and hydrogen atoms were considered explicitly by using van der Waals plus torsional potential functions. The calculations allowed continuous variation in each torsional degree of freedom. In addition, we examined the consequences of simplifying the calculations by restricting the carbons to be on a diamond lattice. Ensembles of conformations for larger chains (CNH2N+2, with N = 16, 32, 64) all show a transition from a random coil at high temperature to a globular form at low temperature. For longer chains (N ≥ 64), this globularization transition is well described by the mean-field theory of Sanchez.

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JO - Journal of Physical Chemistry

JF - Journal of Physical Chemistry

IS - 20

ER -

Phase transitions in polymethylene single chains from Monte Carlo simulated annealing

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