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Energy decomposition in molecular complexes: implications for the treatment of polarization in molecular simulations
Authors:Curutchet Carles  Bofill Josep María  Hernández Begoña  Orozco Modesto  Luque F Javier
Affiliation:Departament de Fisicoquímica, Facultat de Farmàcia, Universitat de Barcelona, Av. Diagonal s/n, 08028 Barcelona, Spain.
Abstract:This study examines the contribution of electrostatic and polarization to the interaction energy in a variety of molecular complexes. The results obtained from the Kitaura-Morokuma (KM) energy decomposition analysis at the HF/6-31G(d) level indicate that, for intermolecular distances around the equilibrium geometries, the polarization energy can be determined as the addition of the polarization energies of interacting blocks, as the mixed polarization term is typically negligible. Comparison of KM and QM/MM results shows that the electrostatic energy determined in the KM method is underestimated (in absolute value) by QM/MM methods. The reason of such underestimation can be attributed to the simplified representation of treating the interaction between overlapping charge distribution by the interaction of a QM molecule with a set of point charges. Nevertheless, the polarization energies calculated by KM and QM/MM methods are in close agreement. Finally, a consistent, automated strategy to derive charge distributions that include implicitly polarization effects in pairwise, additive force fields is presented. The strategy relies in the simultaneous fitting of electrostatic and polarization energies computed by placing a suitable perturbing particle at selected points around the molecule. The suitability of these charges to describe molecular interactions is discussed.
Keywords:polarization  energy decomposition  force field  molecular simulation
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