Journal ArticleDOI
Two-electron valence indices from the Kohn-Sham orbitals
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TLDR
In this article, the Kohn-Sham (KS) density functional theory (DFT) is used to calculate the global valence, which is a generalized distance measure measuring a degree of similarity between the two charge-and-bond-order (CBO) matrices.Abstract:
The recent Hartree-Fock (HF) difference approach to the chemical valence indices (ionic and covalent), formulated in the framework of the pair-density matrix, is implemented within the Kohn-Sham (KS) density functional theory (DFT). The valence numbers are quadratic in terms of displacements of the molecular spin-resolved charge-and-bond-order (CBO) matrix elements, relative to values in the separated atoms limit (SAL). It is shown that the global valence represents a generalized “distance” quantity measuring a degree of similarity between the two CBO matrices: the molecular and SAL. Numerical values for typical molecules exhibiting single and multiple bonds demonstrate that the KS orbitals give rise to these new bond valences in good agreement with both chemical and HF predictions. This KS bond multiplicity analysis is applied to the chemisorption system including the allyl radical and a model surface cluster of molybdenum oxide. It is concluded that the quadratic valence analysis represents a valuable procedure for extracting useful chemical information from standard DFT calculations. © 1997 John Wiley & Sons, Inc.read more
Citations
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A Combined Charge and Energy Decomposition Scheme for Bond Analysis
TL;DR: The ETS-NOCV scheme offers a compact, qualitative, and quantitative picture of the chemical bond formation within one common theoretical framework and can be widely used for the description of different types of chemical bonds.
Journal ArticleDOI
Bond orbitals from chemical valence theory
TL;DR: The approach presented here allows for a discussion of localized orbitals and bond multiplicity within one common framework of chemical valence theory.
Journal ArticleDOI
Natural orbitals for chemical valence as descriptors of chemical bonding in transition metal complexes
TL;DR: Results of NOCV analysis, compared with Mulliken populations analysis and Zigler–Rauk interaction–energy decomposition, demonstrate that the use of the natural valence orbitals allows for a separation of the σ-donation and π-back-donations contributions to the ligand–fragment bond.
Journal ArticleDOI
Donor–Acceptor Properties of Ligands from the Natural Orbitals for Chemical Valence
TL;DR: For both σ-donation and π-back-bonding, the resulting orders of ligands are in a qualitative agreement with those commonly accepted as mentioned in this paper, however, it was also demonstrated that the influence of the metal-containing fragment can be substantial, changing the relative donor-acceptor characteristics of different ligands.
Journal ArticleDOI
Bond multiplicity in transition-metal complexes: applications of two-electron valence indices.
TL;DR: The Nalewajski and Mrozek method can be successfully used as a supplementary analysis tool for electronic structure for studies involving transition metal complexes.
References
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Journal ArticleDOI
Self-Consistent Equations Including Exchange and Correlation Effects
Walter Kohn,L. J. Sham +1 more
TL;DR: In this paper, the Hartree and Hartree-Fock equations are applied to a uniform electron gas, where the exchange and correlation portions of the chemical potential of the gas are used as additional effective potentials.
Journal ArticleDOI
Inhomogeneous Electron Gas
P. C. Hohenberg,Walter Kohn +1 more
TL;DR: In this article, the ground state of an interacting electron gas in an external potential was investigated and it was proved that there exists a universal functional of the density, called F[n(mathrm{r})], independent of the potential of the electron gas.
Book
Atoms in molecules : a quantum theory
TL;DR: In this article, the quantum atom and the topology of the charge desnity of a quantum atom are discussed, as well as the mechanics of an atom in a molecule.
Journal ArticleDOI
Application of the pople-santry-segal CNDO method to the cyclopropylcarbinyl and cyclobutyl cation and to bicyclobutane
TL;DR: In this article, the CNDO method has been applied to the cyclopropylcarbinyl and cyclobutyl cations, and has given results which are in very good accord with experimental data.