Most porous materials involve non-uniform solid surfaces. This project applies and further develops classical density functional theory (DFT) to study how chemical and structural heterogeneities of the porous material alter adsorption isotherms, wetting behaviour, surface tensions, and contact angles. Because water is the most important fluid for porous media, this project furthermore critically analyses the DFT formalism for water. Molecular simulations are conducted for assessing and improving the DFT model for water. With these developments, the project allows meaningful predictions of interfacial properties.
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Predicting Solvation Free Energies in Non-Polar Solvents using ClassicalDensity Functional Theory based on the PC-SAFT equation of state (Universität Stuttgart)
Mar 17, 2021
This dataverse contains the intramolecular configurations of the considered solute molecules in n-hexane, cyclohexane and benzene used to calculate solvation free energies using classical density functional theory based on the PC-SAFT equation of state. The files include the cart...
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