Add to ORKGAccurate characterization of electrostatic interactions is crucial in molecular simulation. Various methods and programs have been developed to obtain electrostatic parameters for additive or polarizable models to replicate electrostatic properties obtained from experimental measurements or theoretical calculations. Electrostatic potentials (ESPs), a set of physically well-defined observables from quantum mechanical (QM) calculations, are well suited for optimization efforts due to the ease of collecting a large amount of conformation-dependent data. However, a reliable set of QM ESP computed at an appropriate level of theory and atomic basis set is necessary. In addition, despite the recent development of the PyRESP program for electrostat...
Accuracy and transferability are the two highly desirable properties of molecular mechanical force f...
ABSTRACT: Accurate and fast evaluation of electrostatic interactions in molecular systems is one of ...
Polarization is the ability of a molecule’s electron density to respond to and influence its environ...
Accurate characterization of electrostatic interactions is crucial in molecular simulation. Various ...
Molecular modeling at the atomic level has been applied in a wide range of biological systems. The w...
We present an efficient polarizable electrostatic model based on direct polarization, SMIRNOFF speci...
We develop here a new method to fit the molecular electrostatic potentials obtained in quantum mecha...
The calculation of molecular electric moments, polarizabilities, and electrostatic potentials is a w...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Abstract: Polarized one-electron potential (POP) optimization is a powerful and practical method to ...
The use of advanced polarizable potentials in quantum mechanical/molecular mechanical (QM/MM) simula...
Electrostatic interactions play a critical role in determining the properties, structures, and dynam...
Molecular dynamics simulations of biomolecules have been widely adopted in biomedical studies. As cl...
We present an improved electronic linear response model to incorporate polarization and charge-trans...
Accuracy and transferability are the two highly desirable properties of molecular mechanical force f...
ABSTRACT: Accurate and fast evaluation of electrostatic interactions in molecular systems is one of ...
Polarization is the ability of a molecule’s electron density to respond to and influence its environ...
Accurate characterization of electrostatic interactions is crucial in molecular simulation. Various ...
Molecular modeling at the atomic level has been applied in a wide range of biological systems. The w...
We present an efficient polarizable electrostatic model based on direct polarization, SMIRNOFF speci...
We develop here a new method to fit the molecular electrostatic potentials obtained in quantum mecha...
The calculation of molecular electric moments, polarizabilities, and electrostatic potentials is a w...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Abstract: Polarized one-electron potential (POP) optimization is a powerful and practical method to ...
The use of advanced polarizable potentials in quantum mechanical/molecular mechanical (QM/MM) simula...
Electrostatic interactions play a critical role in determining the properties, structures, and dynam...
Molecular dynamics simulations of biomolecules have been widely adopted in biomedical studies. As cl...
We present an improved electronic linear response model to incorporate polarization and charge-trans...
Accuracy and transferability are the two highly desirable properties of molecular mechanical force f...
ABSTRACT: Accurate and fast evaluation of electrostatic interactions in molecular systems is one of ...
Polarization is the ability of a molecule’s electron density to respond to and influence its environ...