Paper

Phys. Chem. Chem. Phys., 2009, 11, 10427 - 10437, DOI: 10.1039/b913898f

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Why can water cages adsorb aqueous methane? A potential of mean force calculation on hydrate nucleation mechanisms

Guang-Jun Guo, Meng Li, Yi-Gang Zhang and Chang-Hua Wu

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By performing constrained molecular dynamics simulations in the methane–water system, we successfully calculated the potential of mean force (PMF) between a dodecahedral water cage (DWC) and dissolved methane for the first time. As a function of the distance between DWC and methane, this is characterized by a deep well at 6.2 Å and a shallow well at 10.2 Å, separated by a potential barrier at 8.8 Å. We investigated how the guest molecule, cage rigidity and the cage orientation affected the PMF. The most important finding is that the DWC itself strongly adsorbs methane and the adsorption interaction is independent of the guests. Moreover, the activation energy of the DWC adsorbing methane is comparable to that of hydrogen bonds, despite differing by a factor of 10% when considering different water–methane interaction potentials. We explain that the cage–methane adsorption interaction is a special case of the hydrophobic interaction between methane molecules. The strong net attraction in the DWC shell with radii between 6.2 and 8.8 Å may act as the inherent driving force that controls hydrate formation. A cage adsorption hypothesis for hydrate nucleation is thus proposed and discussed.

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