Flory theory revisited
Abstract
The Flory theory for a single polymer chain is derived as the lowest order of a cumulant expansion. In this approach, the full original Flory free energy (including the logarithmic term), is recovered. %This term does not change the wandering exponent but turns out to %be responsible for the crossover from Brownian to swollen %regime. The prefactors of the elastic and repulsive energy are calculated from the microscopic parameters. The method can be applied to other types of monomer-monomer interactions, and the case of a single chain in a bad solvent is discussed . The method is easily generalized to many chain systems (polymers in solutions), yielding the usual crossovers with chain concentration. Finally, this method is suitable for a systematic expansion around the Flory theory. The corrections to Flory theory consist of extensive terms (proportional to the number of monomers) and powers of . These last terms diverge in the thermodynamic limit, but less rapidly than the usual Fixman expansion in .
Keywords
Cite
@article{arxiv.cond-mat/9307003,
title = {Flory theory revisited},
author = {H. Orland},
journal= {arXiv preprint arXiv:cond-mat/9307003},
year = {2009}
}
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