期刊
JOURNAL OF PHYSICAL CHEMISTRY B
卷 121, 期 3, 页码 649-656出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcb.6b12323
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An extension of the Jacobson-Stockrnayer theory is presented to include the reversible formation of [2]catenanes in a ring-chain system under thermodynamic control. The extended theory is based on the molar catenation constant, measuring the ease of catenation of two ring oligomers, whose expression was obtained in a previous work. Two scenarios have been considered: that of thick (hydrocarbon-like) chains and that of thin (DNA-like) chains. In the case of thick chains, the formation of catenanes can be neglected, unless in the unlikely case of a very large value of the equilibrium constant for linear propagation (K approximate to 10(8) mol(-1) L, or larger). For K tending to infinity, the system becomes a chain-free system where only ring-catenane equilibria occur. Under this condition, there is a critical concentration below which only rings are present at equilibrium and above which the ring fraction remains constant, and the excess monomer is converted only into catenanes. In the case of thin chains, the formation of catenanes cannot be neglected even for values of K as low as 10(2) mol(-1) L, thus justifying the use of the extended theory.
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