Miscibility and Thermodynamics of Mixing of Different Models of Formamide and Water in Computer Simulation

Kiss, Bálint Gábor and Fábián, Balázs and Abdenacer, Isrissi and Szőri, Milán and Jedlovszky, Pál (2017) Miscibility and Thermodynamics of Mixing of Different Models of Formamide and Water in Computer Simulation. JOURNAL OF PHYSICAL CHEMISTRY B - CONDENSED MATTER MATERIALS SURFACES INTERFACES AND BIOPHYSICAL, 121 (29). pp. 7147-7155. ISSN 1520-6106


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The thermodynamic changes that occur upon mixing five models of formamide and three models of water, including the miscibility of these model combinations itself, is studied by performing Monte Carlo computer simulations using an appropriately chosen thermodynamic cycle and the method of thermodynamic integration. The results show that the mixing of these two components is close to the ideal mixing, as both the energy and entropy of mixing turn out to be rather close to the ideal term in the entire composition range. Concerning the energy of mixing, the OPLS/AA_mod model of formamide behaves in a qualitatively different way than the other models considered. Thus, this model results in negative, while the other ones in positive energy of mixing values in combination with all three water models considered. Experimental data supports this latter behavior. Although the Helmholtz free energy of mixing always turns out to be negative in the entire composition range, the majority of the model combinations tested either show limited miscibility, or, at least, approach the miscibility limit very closely in certain compositions. Concerning both the miscibility and the energy of mixing of these model combinations, we recommend the use of the combination of the CHARMM formamide and TIP4P water models in simulations of water–formamide mixtures.

Item Type: Article
Subjects: Q Science / természettudomány > QD Chemistry / kémia > QD02 Physical chemistry / fizikai kémia
Depositing User: MTMT SWORD
Date Deposited: 29 Sep 2017 14:07
Last Modified: 30 Jun 2018 23:16

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