Add to ORKGA new discrete/continuum solvation model has been developed by combining the effective fragment potential (EFP) for the discrete part and the polarizable continuum model (PCM) for the continuum part. The usefulness of this model is demonstrated by applying it to the calculation of the relative energies of the neutral and zwitterionic forms of glycine. These calculations were performed by treating glycine with ab initiowave functions. Water clusters were treated with bothab initio and EFP methods for comparison purposes, and the effect of the continuum was accounted for by the PCM model. The energy barrier connecting the zwitterionic and neutral three-water clusters was also examined. The computationally efficient EFP/PCM model gives results...
Continuum solvation models are widely used to accurately estimate solvent effects on energy, structu...
Linear response and variational treatment are formulated for Hartree–Fock (HF) and Kohn–Sham density...
The recently developed effective fragment potential (EFP) method is used to study the effect of two,...
A new discrete/continuum solvation model has been developed by combining the effective fragment pote...
A new solvation model that combines discrete and continuum descriptions of the solvent has been deve...
The stable conformers of glycine and the inter-conversions between them were studied theoretically a...
Glycine and alanine aminoacids chemistry in solution is explored using a hybrid three parameters den...
The solvation of alanine is investigated, with a focus on adding a sufficient number of discrete wat...
An effective fragment model is developed to treat solvent effects on chemical properties andreaction...
We present the theory and implementation for computing the (free) energy and its analytical gradient...
The effective fragment potential (EFP) method for the efficient inclusion of solvation effects is co...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
The analytic energy gradients for the combined fragment molecular orbital and polarizable continuum ...
This dissertation consists of two closely related parts: theory development and coding of correlatio...
Continuum solvation models are widely used to accurately estimate solvent effects on energy, structu...
Linear response and variational treatment are formulated for Hartree–Fock (HF) and Kohn–Sham density...
The recently developed effective fragment potential (EFP) method is used to study the effect of two,...
A new discrete/continuum solvation model has been developed by combining the effective fragment pote...
A new solvation model that combines discrete and continuum descriptions of the solvent has been deve...
The stable conformers of glycine and the inter-conversions between them were studied theoretically a...
Glycine and alanine aminoacids chemistry in solution is explored using a hybrid three parameters den...
The solvation of alanine is investigated, with a focus on adding a sufficient number of discrete wat...
An effective fragment model is developed to treat solvent effects on chemical properties andreaction...
We present the theory and implementation for computing the (free) energy and its analytical gradient...
The effective fragment potential (EFP) method for the efficient inclusion of solvation effects is co...
We examine the state of the art of the solvation procedure called the polarizable continuum model (P...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
The analytic energy gradients for the combined fragment molecular orbital and polarizable continuum ...
This dissertation consists of two closely related parts: theory development and coding of correlatio...
Continuum solvation models are widely used to accurately estimate solvent effects on energy, structu...
Linear response and variational treatment are formulated for Hartree–Fock (HF) and Kohn–Sham density...
The recently developed effective fragment potential (EFP) method is used to study the effect of two,...