An atom−atom partitioning of the electrostatic energy between unperturbed molecules is proposed on the basis of the topology of the electron density. Atom−atom contributions to the electrostatic energy are computed exactly, i.e., via a novel six-dimensional integration over two atomic basins, and by means of the spherical tensor multipole expansion, up to total interaction rank L = lA + lB + 1 = 6. The convergence behavior of the topological multipole expansion is compared with that using distributed multipole analysis (DMA) multipole moments for a set of van der Waals complexes at the B3LYP/6-311+G(2d,p) level. Within the context of the Buckingham−Fowler model it is shown that the topological and DMA multipole moments converge to a very si...
Accurate and fast evaluation of electrostatic interactions in molecular systems is one of the most c...
Classical molecular mechanics force fields typically model interatomic electrostatic interactions wi...
Abstract: As electrostatic forces play a prominent role in the process of folding and binding of bio...
An atom−atom partitioning of the electrostatic energy between unperturbed molecules is proposed on t...
The exact atomic electrostatic potential (AEP) and atomic multipole moments are calculated using the...
Abstract: Accurate and fast evaluation of electrostatic interactions in molecular systems is still o...
The theory of atoms in molecules (AIM) defines bounded atomic fragments in real space that generate ...
An atom–atom partitioning of the (super)molecular Coulomb energy is proposed on the basis of the top...
A method is presented for calculating the total electrostatic interaction energies between molecules...
We estimate polarizabilities of atoms in molecules without electron density, using a Voronoi tessela...
Currently, all standard force fields for biomolecular simulations use point charges to model intermo...
International audienceClassical molecular mechanics force fields typically model interatomic electro...
Specific intermolecular interactions are largely guided by electrostatics. However, the most common ...
ABSTRACT: Accurate and fast evaluation of electrostatic interactions in molecular systems is one of ...
A topological atom is a quantum object with a well-defined intra-atomic energy, which includes kinet...
Accurate and fast evaluation of electrostatic interactions in molecular systems is one of the most c...
Classical molecular mechanics force fields typically model interatomic electrostatic interactions wi...
Abstract: As electrostatic forces play a prominent role in the process of folding and binding of bio...
An atom−atom partitioning of the electrostatic energy between unperturbed molecules is proposed on t...
The exact atomic electrostatic potential (AEP) and atomic multipole moments are calculated using the...
Abstract: Accurate and fast evaluation of electrostatic interactions in molecular systems is still o...
The theory of atoms in molecules (AIM) defines bounded atomic fragments in real space that generate ...
An atom–atom partitioning of the (super)molecular Coulomb energy is proposed on the basis of the top...
A method is presented for calculating the total electrostatic interaction energies between molecules...
We estimate polarizabilities of atoms in molecules without electron density, using a Voronoi tessela...
Currently, all standard force fields for biomolecular simulations use point charges to model intermo...
International audienceClassical molecular mechanics force fields typically model interatomic electro...
Specific intermolecular interactions are largely guided by electrostatics. However, the most common ...
ABSTRACT: Accurate and fast evaluation of electrostatic interactions in molecular systems is one of ...
A topological atom is a quantum object with a well-defined intra-atomic energy, which includes kinet...
Accurate and fast evaluation of electrostatic interactions in molecular systems is one of the most c...
Classical molecular mechanics force fields typically model interatomic electrostatic interactions wi...
Abstract: As electrostatic forces play a prominent role in the process of folding and binding of bio...