Publications


Title : Mean field theory for the intermolecular and intramolecular conformational transitions of a single flexible polyelectrolyte chain

Language: English
Type: Article
Authors: Chwen-Yang Shew and Kenichi Yoshikawa
Journal: Journal of Chemical Physics
ISSN: 0021-9606
Volume: 126
Number: 14
Month: 4
Year: 2007
Actual year: 2007
Pages: 32767-9
doi:   10.1063/1.2714552
Abstract: The diMarzio theory has been extended to elucidate the intermolecular and intramolecular phase segregations of a single flexible chain polyelectrolyte in dilute salt-free solutions. At the long chain limit, this theory yields the formalism obtained from the more sophisticated Edward Hamiltonian for polyelectrolyte problems. The calculated phase diagram exhibits the features of a first-order phase transition, with continuous and discontinuous transitions separated by a critical point. Under the discontinuous transition, the polyelectrolyte chain exhibits coexistent expanded and collapsed conformational states, same as intermolecular phase segregation. For a limiting long chain, the mean chain size at critical point is roughly 90% of the size of an ideal chain. Such a result implies that partial contraction within a chain molecule is required to collapse a flexible polyelectrolyte chain. Moreover, the theory predicts that for a longer chain, intramolecular segregated conformations differ significantly from intermolecular segregated conformations, but the difference becomes small for shorter chains. Besides, the charge needed to induce intramolecular segregation is smaller than that of intermolecular segregation for a given chain length. These findings are consistent with previous literature results. (c) 2007 American Institute of Physics.

"Mean field theory for the intermolecular and intramolecular conformational transitions of a single flexible polyelectrolyte chain"

Chwen-Yang Shew and Kenichi Yoshikawa, Journal of Chemical Physics, 126, 32767-9 (2007)