Abstract
We report a molecular simulation investigation of the hydration thermodynamic behavior of silicalite-1 zeolite, in which an increasing amount of attractive surface defects was introduced. An internal surface defect can either be “weak” or “strong”, depending on the balance between the defect−water and water−water interactions. We found that the hydration behaviors in the presence of weak or strong defects were markedly different. The water hydration process in the presence of weak surface defects is basically a homogeneous nucleation process. The effect of the weak defects is to make the framework more attractive overall, and this leads to the progressive shift of the condensation transition, while the framework remains “hydrophobic” overall. In the case of strong defects, water condensation is characterized by a combination of strong adsorption of a limited amount of water at very low pressure, followed by a plateau in the intermediate pressure range and by a sudden filling of the nanoporous volume at hi...
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