An approximate formula is derived and implemented in the general effective fragment potential (EFP2) method to model the intermolecular charge transferinteraction. This formula is based on second order intermolecular perturbation theory and utilizes canonical molecular orbitals and Fock matrices obtained with preparative self-consistent field calculations. It predicts charge transferenergies that are in reasonable agreement with the reduced variational space energy decomposition analysis. The formulas for the charge transfer gradients with respect to EFP translational and rotational displacements are also derived and implemented
Using field-theoretic techniques, we develop a molecularly based dipolar self-consistent-field theor...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
Charge transfer in peptides and proteins can occur on different pathways, depending on the energetic...
The charge transfer (CT) interaction, the most time-consuming term in the general effective fragment...
A method for calculating the dispersion energy between molecules modeled with the general effective ...
The effective fragment potential (EFP) method is an ab initio based polarizable classical method in ...
The effective fragment potential (EFP) method, a model potential for treating solvent effects and ot...
Noncovalent interactions play an important role in the stabilization of biological molecules. The ef...
The effective fragment potential (EFP) method is introduced as a way to model the effect of intermol...
This work presents a theoretical procedure to reduce fragment-based methods of Quantum Chemistry int...
Three novel fragmentation methods that are available in the electronic structure program GAMESS (gen...
In this work, the effective fragment potential (EFP) method is fully integrated (FI) into the fragme...
The effective fragment potential (EFP) method for the efficient inclusion of solvation effects is co...
A formula to calculate the charge penetration energy that results when two charge densities overlap ...
My doctoral research has been focused on how to approach intermolecular interactions from two differ...
Using field-theoretic techniques, we develop a molecularly based dipolar self-consistent-field theor...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
Charge transfer in peptides and proteins can occur on different pathways, depending on the energetic...
The charge transfer (CT) interaction, the most time-consuming term in the general effective fragment...
A method for calculating the dispersion energy between molecules modeled with the general effective ...
The effective fragment potential (EFP) method is an ab initio based polarizable classical method in ...
The effective fragment potential (EFP) method, a model potential for treating solvent effects and ot...
Noncovalent interactions play an important role in the stabilization of biological molecules. The ef...
The effective fragment potential (EFP) method is introduced as a way to model the effect of intermol...
This work presents a theoretical procedure to reduce fragment-based methods of Quantum Chemistry int...
Three novel fragmentation methods that are available in the electronic structure program GAMESS (gen...
In this work, the effective fragment potential (EFP) method is fully integrated (FI) into the fragme...
The effective fragment potential (EFP) method for the efficient inclusion of solvation effects is co...
A formula to calculate the charge penetration energy that results when two charge densities overlap ...
My doctoral research has been focused on how to approach intermolecular interactions from two differ...
Using field-theoretic techniques, we develop a molecularly based dipolar self-consistent-field theor...
A method that combines quantum mechanics (QM), typically a solute, the effective fragment potential ...
Charge transfer in peptides and proteins can occur on different pathways, depending on the energetic...