Molecular-dynamics simulations of a single C60 fullerene and pairs of C60 fullerenes in aqueous solution have been performed for the purpose of obtaining improved understanding of the nature of solvent-induced interactions between C60 fullerenes in water. Our simulations reveal repulsive solvent-induced interactions between two C60 fullerenes in aqueous solution in contrast to the associative effects observed for conventional nonpolar solutes. A decomposition of the solvent-induced potential of mean force between fullerenes into entropy and energy (enthalpy) contributions reveals that the water-induced repulsion between fullerenes is energetic in origin, contrasting strongly to entropy-driven association observed for conventional nonpolar solutes. The dominance of energy in the solvent-induced interactions between C60 fullerenes arises primarily from the high atomic density of the C60 molecule, resulting in strong C60 -water van der Waals attraction that is reduced upon association of the fullerenes. The water-induced repulsion is found to decrease with increasing temperature due largely to an increasing contribution from a relatively weak entropy-driven association. © 2005 American Institute of Physics.
CITATION STYLE
Li, L., Bedrov, D., & Smith, G. D. (2005). A molecular-dynamics simulation study of solvent-induced repulsion between C 60 fullerenes in water. Journal of Chemical Physics, 123(20). https://doi.org/10.1063/1.2121647
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