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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o-xylene.nml
Jun 23, 2021 - Supporting Information: Solute Configurations in n-hexane, cyclohexane and benzene
application/vnd.enliven - 747 B - MD5: ebefa67e5f916db76b4c1c367bc1e702
pentane.nml
Jun 23, 2021 - Supporting Information: Solute Configurations in n-hexane, cyclohexane and benzene
application/vnd.enliven - 1.4 KB - MD5: 6a2acd5217a419d6706a641d4bbddb0d
propane.nml
Jun 23, 2021 - Supporting Information: Solute Configurations in n-hexane, cyclohexane and benzene
application/vnd.enliven - 924 B - MD5: 314733d81a716cd0e1a5256f7db1153f
toluene.nml
Jun 23, 2021 - Supporting Information: Solute Configurations in n-hexane, cyclohexane and benzene
application/vnd.enliven - 1.2 KB - MD5: 4e12d156c6d9dea1b96c658fd9c6ad0e
toluene.nml
Jun 23, 2021 - Supporting Information: Solute Configurations in n-hexane, cyclohexane and benzene
application/vnd.enliven - 1.2 KB - MD5: 286f83e237c6a9cf52466fa9c17c0791
fig11_DFT_methane_butane_y08_adsorb.txt
Mar 29, 2021 - Supplementary material for 'Prediction of Adsorption Isotherms and Selectivities: Comparison between Classical Density Functional Theory Based on the Perturbed-Chain Statistical Associating Fluid Theory Equation of State and Ideal Adsorbed Solution Theory'
Plain Text - 158.8 KB - MD5: 70f69251fd196da1322f597859d77ed0
fig11_DFT_methane_butane_y08_desorb.txt
Mar 29, 2021 - Supplementary material for 'Prediction of Adsorption Isotherms and Selectivities: Comparison between Classical Density Functional Theory Based on the Perturbed-Chain Statistical Associating Fluid Theory Equation of State and Ideal Adsorbed Solution Theory'
Plain Text - 158.8 KB - MD5: 7c3a9bf25678b602084c39d6c9262f5f
fig11_TMMC_methane_butane_y08.txt
Mar 29, 2021 - Supplementary material for 'Prediction of Adsorption Isotherms and Selectivities: Comparison between Classical Density Functional Theory Based on the Perturbed-Chain Statistical Associating Fluid Theory Equation of State and Ideal Adsorbed Solution Theory'
Plain Text - 31.6 KB - MD5: 80b8884fb907bbf7bec18bb9fd9cdd0f
fig2_DFT_arg_290K_cylR20_adsorb.txt
Mar 29, 2021 - Supplementary material for 'Prediction of Adsorption Isotherms and Selectivities: Comparison between Classical Density Functional Theory Based on the Perturbed-Chain Statistical Associating Fluid Theory Equation of State and Ideal Adsorbed Solution Theory'
Plain Text - 125.5 KB - MD5: e34550ce8502ce76f4b5b510384e4ec2
fig2_DFT_arg_290K_cylR20_desorb.txt
Mar 29, 2021 - Supplementary material for 'Prediction of Adsorption Isotherms and Selectivities: Comparison between Classical Density Functional Theory Based on the Perturbed-Chain Statistical Associating Fluid Theory Equation of State and Ideal Adsorbed Solution Theory'
Plain Text - 125.5 KB - MD5: 76cf23ac9a23ff8d1b5f3b7719a0db7e
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