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The accuracy of predicting thermophysical properties through molecular dynamics simulations is constrained by the precision of the models used to describe molecular interactions. The Open Force Field Initiative has established a computational structure to develop new models and introduced two nonpolarizable force fields, Parsley and Sage. Sage version 2.0.0 focused on refining Lennard-Jones parameters to accurately reflect thermophysical properties. In this context, we evaluate the ability of our introduced D-MBIS nonbonded force field parameters to replicate liquid densities and enthalpies of evaporation of 49 neutral compounds from the ThermoML database using the openff-evaluator package. Our findings confirm that our ab initio derived nonbonded force field parameters with an implicit description of the polarization accurately mirror both thermophysical properties with a high degree of precision.
Pulido et al. (Fri,) studied this question.
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