Corrections to molecular one-electron properties using møller-plesset perturbation theory

## Abstract The three‐body energy expansion in the fragment molecular orbital method (FMO) was applied to the 2nd order Møller–Plesset theory (MP2). The accuracy of both the two and three‐body expansions was determined for water clusters, alanine __n__‐mers (α‐helices and β‐strands) and one synthet

Moller-Plesset perturbation theory is developed to second order for a selection of Kramers-restricted Dirac-Hartree-Fock closed-and open-shell reference wavefunctions. The open-shell wavefunctions considered are limited to those with no more than two electrons in open shells, but include the case of

## Abstract The interaction energies of ubiquitous weakly polar interactions in proteins are comparable with those of hydrogen bonds, consequently, they stabilize local, secondary, and tertiary structures. However, the most widely‐used density functionals fail to describe the weakly polar interacti

Formulae for the analytical differentiation of the energy contribution due to triple (T) excitations within fourth-order Msller-Plesset (MP4) perturbation theory are derived. Combining these formulae with previously derived formulae for the evaluation of analytical first derivatives of the energy co