Fluctuations and micro-heterogeneity in aqueous mixtures (CROSBI ID 187007)
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Podaci o odgovornosti
Perera, Aurelien ; Mazighi, Redha ; Kežić, Bernarda
engleski
Fluctuations and micro-heterogeneity in aqueous mixtures
The problem as to why water-water density correlations are systematically overestimated in computer simulation of aqueous mixtures is examined through an extensive molecular dynamics study of mixtures of the extended single point charge water model with a fully miscible weaker version of it, obtained by scaling down the site partial charges by a factor 2/3, thereby eliminating solute-solvent size differences. The study reveals that enhanced water correlations is a genuine physical effect, and are not an artifact of the simulations or the models, as previously suggested in the context of realistic aqueous mixtures. Rather, they correspond to the existence of strongly correlated water domains, for “weak-water” mole fraction x > 0.4, that modulate the spatial decay of the density correlations. These domains produce a prepeak in the structure factor, suggesting that simple aque- ous mixture might behave just like micro-emulsions. The overestimated long range water correlations result from incorrect predictions of the asymptote of these correlations, which themselves arise from size limitations of the simulation box. However, by requiring consistency between thermodynamical and structural expressions of the concentration fluctuations, a method to predict the proper decay of the correlation function is obtained herein, inspired by the formal analogy with micro-emulsions. This study provides a new insight for the large values of the experimental Kirkwood-Buff integrals for many aqueous mixtures: these mixtures are in a Lifshitz-type regime, where concentration fluctuations compete with water domain formation.
molecular dynamics simulation ; aqueous mixtures ; micro-heterogeneity
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Podaci o izdanju
136
2012.
174516
10
objavljeno
0021-9606
1089-7690
10.1063/1.4707745