The charge transfer (CT) interaction, the most time-consuming term in the general effective fragment potential method, is made much more computationally efficient. This is accomplished by the projection of the quasiatomic minimal-basis-set orbitals (QUAMBOs) as the atomic basis onto the self-consistent field virtual molecular orbital (MO) space to select a subspace of the full virtual space called the valence virtual space. The diagonalization of the Fock matrix in terms of QUAMBOs recovers the canonical occupied orbitals and, more importantly, gives rise to the valence virtual orbitals (VVOs). The CT energies obtained using VVOs are generally as accurate as those obtained with the full virtual space canonical MOs because the QUAMBOs span t...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
This work presents a theoretical procedure to reduce fragment-based methods of Quantum Chemistry int...
Energy decomposition analysis (EDA) based on absolutely localized molecular orbitals (ALMOs) decompo...
An approximate formula is derived and implemented in the general effective fragment potential (EFP2)...
Electron and charge transfers are part of many vital processes in nature and technology. Ab initio d...
Electron and charge transfers are part of many vital processes in nature and technology. Ab initio d...
The orbital products of occupied and virtual orbitals are employed as an expansion basis for the cha...
Three novel fragmentation methods that are available in the electronic structure program GAMESS (gen...
In this article, four methods to calculate charge transfer integrals in the context of bridge-mediat...
We present a critical analysis of the popular fragment-orbital density-functional theory (FO-DFT) sc...
A combined strategy that unifies our interacting quantum atoms approach (IQA), a chemically intuitiv...
Charge-transfer (CT) is an important binding force in the formation of intermolecular complexes, and...
It is discussed that one can obtain effective atomic orbitals (AOs) in quite different theoretical f...
A transformation of the virtual Kohn-Sham orbitals is proposed to a set of charge-transfer orbitals ...
The effective fragment potential (EFP) method, a model potential for treating solvent effects and ot...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
This work presents a theoretical procedure to reduce fragment-based methods of Quantum Chemistry int...
Energy decomposition analysis (EDA) based on absolutely localized molecular orbitals (ALMOs) decompo...
An approximate formula is derived and implemented in the general effective fragment potential (EFP2)...
Electron and charge transfers are part of many vital processes in nature and technology. Ab initio d...
Electron and charge transfers are part of many vital processes in nature and technology. Ab initio d...
The orbital products of occupied and virtual orbitals are employed as an expansion basis for the cha...
Three novel fragmentation methods that are available in the electronic structure program GAMESS (gen...
In this article, four methods to calculate charge transfer integrals in the context of bridge-mediat...
We present a critical analysis of the popular fragment-orbital density-functional theory (FO-DFT) sc...
A combined strategy that unifies our interacting quantum atoms approach (IQA), a chemically intuitiv...
Charge-transfer (CT) is an important binding force in the formation of intermolecular complexes, and...
It is discussed that one can obtain effective atomic orbitals (AOs) in quite different theoretical f...
A transformation of the virtual Kohn-Sham orbitals is proposed to a set of charge-transfer orbitals ...
The effective fragment potential (EFP) method, a model potential for treating solvent effects and ot...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
This work presents a theoretical procedure to reduce fragment-based methods of Quantum Chemistry int...
Energy decomposition analysis (EDA) based on absolutely localized molecular orbitals (ALMOs) decompo...