New method for the derivation of net atomic charges from the electrostatic potential

Four methods for deriving partial atomic charges from the Ž quantum chemical electrostatic potential CHELP, CHELPG, Merz-Kollman, and . RESP have been compared and critically evaluated. It is shown the charges strongly depend on how and where the potential points are selected. Two alternative method

An improved semiempirical method for computing electrostatic potential-derived atomic charges is described. It includes a very fast algorithm for the generation of the grid points around the molecule and the calculation of the electrostatic potential at these points. The dependency of the atomic poi

## Abstract We report an approach for the determination of atomic monopoles of macromolecular systems using connectivity and geometry parameters alone. The method is appropriate also for the calculation of charge distributions based on the quantum mechanically determined wave function and does not

The distribution of molecular electrostatic potential (MEP) on a surface is a common model used to describe simultaneously steric properties (e.g., size, shape) and reactive properties (e.g., electro-and nucleophilic positions) of a molecule. In this work, we analyze some relations between these two

## Abstract The present work provides a detailed investigation on the use of singular value decomposition (SVD) to solve the linear least‐squares problem (LLS) for the purposes of obtaining potential‐derived atom‐centered point charges (PD charges) from the __ab initio__ molecular electrostatic pot