All-atom (AA) molecular dynamics (MD) simulations are employed to predict interfacial tensions (IFT) and surface tensions (ST) of both ionic and non-ionic surfactants. The general AMBER force field (GAFF) and variants are examined in terms of their performance in predicting accurate IFT/ST, , values for chosen water models, together with the hydration free energy, Δ, and density, , predictions for organic bulk phases. A strong correlation is observed between the quality of and predictions. Based on the results, the GAFF-LIPID force field, which provides improved predictions is selected for simulating surfactant tail groups. Good predictions are obtained with GAFF/GAFF-LIPID parameters and the TIP3P water model for IFT simulations at a water-triolein interface, and for GAFF/GAFF-LIPID parameters together with the OPC4 water model for ST simulations at a water-vacuum interface. Using a combined molecular dynamics-molecular thermodynamics theory (MD-MTT) framework, a mole fraction of C12E6 molecule of 1.477 × 10 (from the experimental critical micelle concentration, CMC) gives a simulated surface excess concentration, , of 76 C12E6 molecules at a 36 nm water-vacuum surface (3.5 × 10 mol cm), which corresponds to a simulated ST of 35 mN m. The results compare favourably with an experimental of C12E6 of 3.7 × 10 mol cm (80 surfactants for a 36 nm surface) and experimental ST of C12E6 of 32 mN m at the CMC.
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