International audienceA new Hirshfeld partitioning of cluster polarizability into intrinsic polarizabilities and charge delocalization contributions is presented. For water clusters, density-functional theory calculations demonstrate that the total polarizability of a water molecule in a cluster depends upon the number and type of hydrogen bonds the molecule makes with its neighbors. The intrinsic contribution to the molecular polarizability is transferable between water molecules displaying the same H-bond scheme in clusters of different sizes, and geometries, while the charge delocalization contribution also depends on the cluster size. These results could be used to improve the existing force fields
We have evaluated the extent to which classical polarizable force fields, based either on the chemic...
cited By 6International audienceIn this work, a general scheme to visualize polarizability density d...
Author Institution: Pacific Northwest National Laboratory; Environmental Molecular Sciences Laborato...
International audienceA new Hirshfeld partitioning of cluster polarizability into intrinsic polariza...
The charge density distribution of a functional group is predominately determined by the nuclei and ...
In this work we examine three water models, including one developed by us, with distributed polariza...
In this work we examine three water models, including one developed by us, with distributed polariza...
Ab initio and DFT computations were carried out on four distinct hydrogen-bonded arrangements of wat...
The problems arising from using supermolecular calculations to predict the medium effect on a solute...
A new flexible atomic and polarizable potential for water simulation is validated and applied to the...
It is demonstrated that the localized orbitals calculated for a water cluster have small delocalizat...
A flexible polarizable water model, DPP2-F, has been developed and its applications to vibrational a...
In a previous paper we introduced a new Hamiltonian model for polarizable water, based on the atomic...
The prototypical hydrogen bond in water dimer and hydrogen bonds in the protonated water dimer, in o...
A new classical empirical potential is proposed for water. The model uses a polarizable atomic multi...
We have evaluated the extent to which classical polarizable force fields, based either on the chemic...
cited By 6International audienceIn this work, a general scheme to visualize polarizability density d...
Author Institution: Pacific Northwest National Laboratory; Environmental Molecular Sciences Laborato...
International audienceA new Hirshfeld partitioning of cluster polarizability into intrinsic polariza...
The charge density distribution of a functional group is predominately determined by the nuclei and ...
In this work we examine three water models, including one developed by us, with distributed polariza...
In this work we examine three water models, including one developed by us, with distributed polariza...
Ab initio and DFT computations were carried out on four distinct hydrogen-bonded arrangements of wat...
The problems arising from using supermolecular calculations to predict the medium effect on a solute...
A new flexible atomic and polarizable potential for water simulation is validated and applied to the...
It is demonstrated that the localized orbitals calculated for a water cluster have small delocalizat...
A flexible polarizable water model, DPP2-F, has been developed and its applications to vibrational a...
In a previous paper we introduced a new Hamiltonian model for polarizable water, based on the atomic...
The prototypical hydrogen bond in water dimer and hydrogen bonds in the protonated water dimer, in o...
A new classical empirical potential is proposed for water. The model uses a polarizable atomic multi...
We have evaluated the extent to which classical polarizable force fields, based either on the chemic...
cited By 6International audienceIn this work, a general scheme to visualize polarizability density d...
Author Institution: Pacific Northwest National Laboratory; Environmental Molecular Sciences Laborato...