Add to ORKGGiven the piecewise approach to modeling intermolecular interactions for force fields, they can be difficult to parametrize since they are fit to data like total energies that only indirectly connect to their separable functional forms. Furthermore, by neglecting certain types of molecular interactions such as charge penetration and charge transfer, most classical force fields must rely on, but do not always demonstrate, how cancellation of errors occurs among the remaining molecular interactions accounted for such as exchange repulsion, electrostatics, and polarization. In this work we present the first generation of the (many-body) MB-UCB force field that explicitly accounts for the decomposed molecular interactions commensurate with a va...
Abstract: We present the derivation of a new molecular mechanical force field for simulating the str...
The poor performance of many existing nonpolarizable ion force fields is typically blamed on either ...
In this work we present a new proposal to model intermolecular interactions and use it for water mol...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
Two algorithms for many-body interaction energy decomposition within the Hartree−Fock approximation ...
Computational quantum chemistry can be more than just numerical experiments when methods are specifi...
Nonreactive force fields are defined by perturbations of electron density that are relatively small,...
Almost 50 years have passed from the first computer simulations of water, and a large number of mole...
In the quest towards coarse-grained potentials and new water models, we present an extension of the ...
In this work, ab initio parametrization of water force field is used to get insights into the functi...
Water is ubiquitous in nature. The arrangement and behavior of water molecules aroundsolutes, rangin...
We report here a new force field for water based solely on quantum mechanics (QM) calculations with ...
International audienceWe present the extension of the SIBFA (Sum of Interactions Between Fragments A...
I report on the derivation, development and computer implementation of methods for computing the ene...
We developed a novel neural network-based force field for water based on training with high-level ab...
Abstract: We present the derivation of a new molecular mechanical force field for simulating the str...
The poor performance of many existing nonpolarizable ion force fields is typically blamed on either ...
In this work we present a new proposal to model intermolecular interactions and use it for water mol...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
Two algorithms for many-body interaction energy decomposition within the Hartree−Fock approximation ...
Computational quantum chemistry can be more than just numerical experiments when methods are specifi...
Nonreactive force fields are defined by perturbations of electron density that are relatively small,...
Almost 50 years have passed from the first computer simulations of water, and a large number of mole...
In the quest towards coarse-grained potentials and new water models, we present an extension of the ...
In this work, ab initio parametrization of water force field is used to get insights into the functi...
Water is ubiquitous in nature. The arrangement and behavior of water molecules aroundsolutes, rangin...
We report here a new force field for water based solely on quantum mechanics (QM) calculations with ...
International audienceWe present the extension of the SIBFA (Sum of Interactions Between Fragments A...
I report on the derivation, development and computer implementation of methods for computing the ene...
We developed a novel neural network-based force field for water based on training with high-level ab...
Abstract: We present the derivation of a new molecular mechanical force field for simulating the str...
The poor performance of many existing nonpolarizable ion force fields is typically blamed on either ...
In this work we present a new proposal to model intermolecular interactions and use it for water mol...