Balance between physical interpretability and energetic predictability in widely used dispersion-corrected density functionals

Abstract: We assess the performance of different dispersion models for several popular density functionals across a diverse set of non-covalent systems, ranging from the benzene dimer to molecular crystals. By analyzing the interaction energies and their individual components, we demonstrate that there exists variability across different systems for empirical dispersion models, which are calibrated for reproducing the interaction energies of specific systems. Thus, parameter fitting may undermine the underlying physics,… Show more