Abstract
AbstractSummary:Nonrandomness in the distribution of rotational isomeric states along a flexible unperturbed chain reduces its conformational entropy. Pairwise interdependence of the bonds is a necessary, but not sufficient, condition for a significant reduction. The reduction in conformational entropy from this source can be as severe as a factor of three. It is generally more severe for isotactic chains than for the syndiotactic chains constructed from the same monomer. Surprising effects are sometimes seen, such as the nearly identical reductions in conformational entropy for polydimethylsiloxane, a very flexible chain, and for poly(methyl methacrylate), a much stiffer chain.Fractional difference in conformational entropy due to nonrandomness versus probability of helix in helix‐coil transition.magnified imageFractional difference in conformational entropy due to nonrandomness versus probability of helix in helix‐coil transition.
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