Lattice model of linear telechelic polymer melts. II. Influence of chain stiffness on basic thermodynamic properties
In: The Journal of Chemical Physics ; volume 143, issue 2 ; ISSN 0021-9606 1089-7690, 2015
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Zugriff:
The lattice cluster theory (LCT) for semiflexible linear telechelic melts, developed in Paper I, is applied to examine the influence of chain stiffness on the average degree of self-assembly and the basic thermodynamic properties of linear telechelic polymer melts. Our calculations imply that chain stiffness promotes self-assembly of linear telechelic polymer melts that assemble on cooling when either polymer volume fraction ϕ or temperature T is high, but opposes self-assembly when both ϕ and T are sufficiently low. This allows us to identify a boundary line in the ϕ-T plane that separates two regions of qualitatively different influence of chain stiffness on self-assembly. The enthalpy and entropy of self-assembly are usually treated as adjustable parameters in classical Flory-Huggins type theories for the equilibrium self-assembly of polymers, but they are demonstrated here to strongly depend on chain stiffness. Moreover, illustrative calculations for the dependence of the entropy density of linear telechelic polymer melts on chain stiffness demonstrate the importance of including semiflexibility within the LCT when exploring the nature of glass formation in models of linear telechelic polymer melts.
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Lattice model of linear telechelic polymer melts. II. Influence of chain stiffness on basic thermodynamic properties
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Autor/in / Beteiligte Person: | Xu, Wen-Sheng ; Freed, Karl F. ; National Science Foundation |
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Zeitschrift: | The Journal of Chemical Physics ; volume 143, issue 2 ; ISSN 0021-9606 1089-7690, 2015 |
Veröffentlichung: | AIP Publishing, 2015 |
Medientyp: | academicJournal |
DOI: | 10.1063/1.4926359 |
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