In this work, we have developed an anisotropic polarizable model for the AMOEBA force field that is derived from electrostatic fitting on a gas phase water molecule as the primary approach to improve the many-body polarization model. We validate our approach using small to large water cluster benchmark data sets and ambient liquid water properties and through comparisons to a variational energy decomposition analysis breakdown of molecular interactions for water and water–ion trimer systems. We find that the accounting of anisotropy polarization for a single water molecule demonstrably improves the description of the many-body polarization energy in all cases. This study provides a proof of principle for extending our protocol for developin...
We report the development of a united AMOEBA (uAMOEBA) polarizable water model, which is computation...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
The importance of incorporating solvent polarization effects into the modeling of solvation processe...
Molecular force fields have been approaching a generational transition over the past several years, ...
We report the iAMOEBA ("inexpensive AMOEBA") classical polarizable water model. The iAMOEBA model us...
Molecular force fields have been approaching a generational transition over the past several years, ...
Classical potentials based on isotropic and additive atomic charges have been widely used to model m...
Abstract A protocol to generate parameters for the AMOEBA polarizable force field for small organic ...
Development of the AMOEBA (atomic multipole optimized energetics for biomolecular simulation) force ...
In this work, we evaluate the accuracy of the classical AMOEBA model for representing many-body inte...
As an integrated step toward a coherent polarizable force field for biomolecular modeling, we analyz...
A set of atomic polarizability parameters for a new polarizable Gaussian model (pGM) has been develo...
We report the development of a united AMOEBA (uAMOEBA) polarizable water model, which is computation...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
The importance of incorporating solvent polarization effects into the modeling of solvation processe...
Molecular force fields have been approaching a generational transition over the past several years, ...
We report the iAMOEBA ("inexpensive AMOEBA") classical polarizable water model. The iAMOEBA model us...
Molecular force fields have been approaching a generational transition over the past several years, ...
Classical potentials based on isotropic and additive atomic charges have been widely used to model m...
Abstract A protocol to generate parameters for the AMOEBA polarizable force field for small organic ...
Development of the AMOEBA (atomic multipole optimized energetics for biomolecular simulation) force ...
In this work, we evaluate the accuracy of the classical AMOEBA model for representing many-body inte...
As an integrated step toward a coherent polarizable force field for biomolecular modeling, we analyz...
A set of atomic polarizability parameters for a new polarizable Gaussian model (pGM) has been develo...
We report the development of a united AMOEBA (uAMOEBA) polarizable water model, which is computation...
We analyze convergence of energies and forces for the AMOEBA classical polarizable model when evalua...
The importance of incorporating solvent polarization effects into the modeling of solvation processe...