Add to ORKGThe restrained electrostatic potential (RESP) approach is a highly regarded and widely used method of assigning partial charges to molecules for simulations. RESP uses a quantum-mechanical method that yields fortuitous overpolarization and thereby accounts only approximately for self-polarization of molecules in the condensed phase. Here we present RESP2, a next generation of this approach, where the polarity of the charges is tuned by a parameter, δ, which scales the contributions from gas- and aqueous-phase calculations. When the complete non-bonded force field model, including Lennard-Jones parameters, is optimized to liquid properties, improved accuracy is achieved, even with this reduced set of five Lennard-Jones types. We argue that R...
Reactive force fields provide an affordable model for simulating chemical reactions at a fraction of...
Nonreactive force fields are defined by perturbations of electron density that are relatively small,...
Atomic partial charges for use in traditional force fields for biomolecular simulation are often fit...
A scheme is proposed for calculating electrostatic potential (ESP) derived charges from mixed quantu...
Molecular dynamics simulations are helpful tools for a range of applications, ranging from drug disc...
We present an efficient polarizable electrostatic model based on direct polarization, SMIRNOFF speci...
Abstract: We present the derivation of a new molecular mechanical force field for simulating the str...
ABSTRACT: We present the ff14ipq force field, implementing the previously published IPolQ charge set...
We present the ff14ipq force field, implementing the previously published IPolQ charge set for simul...
International audienceWe extend the framework for polarizable force fields to include the case where...
Permanent multipoles (MTPs) embody a natural extension to common point-charge (PC) representations i...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Theories of solvation free energies often involve electrostatic potentials at the position of a solu...
In classical nonpolarizable models, electrostatic interactions are usually described by assigning fi...
Molecular modeling at the atomic level has been applied in a wide range of biological systems. The w...
Reactive force fields provide an affordable model for simulating chemical reactions at a fraction of...
Nonreactive force fields are defined by perturbations of electron density that are relatively small,...
Atomic partial charges for use in traditional force fields for biomolecular simulation are often fit...
A scheme is proposed for calculating electrostatic potential (ESP) derived charges from mixed quantu...
Molecular dynamics simulations are helpful tools for a range of applications, ranging from drug disc...
We present an efficient polarizable electrostatic model based on direct polarization, SMIRNOFF speci...
Abstract: We present the derivation of a new molecular mechanical force field for simulating the str...
ABSTRACT: We present the ff14ipq force field, implementing the previously published IPolQ charge set...
We present the ff14ipq force field, implementing the previously published IPolQ charge set for simul...
International audienceWe extend the framework for polarizable force fields to include the case where...
Permanent multipoles (MTPs) embody a natural extension to common point-charge (PC) representations i...
The quality of atomistic simulations depends decisively on the accuracy of the underlying energy fun...
Theories of solvation free energies often involve electrostatic potentials at the position of a solu...
In classical nonpolarizable models, electrostatic interactions are usually described by assigning fi...
Molecular modeling at the atomic level has been applied in a wide range of biological systems. The w...
Reactive force fields provide an affordable model for simulating chemical reactions at a fraction of...
Nonreactive force fields are defined by perturbations of electron density that are relatively small,...
Atomic partial charges for use in traditional force fields for biomolecular simulation are often fit...