Intermediate neglect of differential overlap approximation

Intermediate Neglect of Differential Overlap Approximation (INDO)... 

Linear Scaling Techniques Semi-Empirical Methods 3.9.1 Neglect of Diatomic Differential Overlap Approximation (NDDO) 3.9.2 Intermediate Neglect of Differential Overlap Approximation (INDO) 80 81 82 83 4.13 Locahzed Orbital Methods 4.14 Summary of Electron Correlation Methods 4.15 Excited States References 5 Basis Sets 144 144 147 148 150... 

Highest occupied molecular orbital Intermediate neglect of differential overlap Linear combination of atomic orbitals Local density approximation Local spin density functional theory Lowest unoccupied molecular orbital Many-body perturbation theory Modified INDO version 3 Modified neglect of diatomic overlap Molecular orbital Moller-Plesset... 

V. Intermediate Neglect of Differential Overlap. Journal of Chemical Physics 47 2026-2033. pie J A, D P Santry and G A Segal 1965. Approximate Self-Consistent Molecular Orbital Theory. I. 

Various theoretical methods (self-consistent field molecular orbital (SCF-MO) modified neglect of diatomic overlap (MNDO), complete neglect of differential overlap (CNDO/2), intermediate neglect of differential overlap/screened approximation (INDO/S), and STO-3G ab initio) have been used to calculate the electron distribution, structural parameters, dipole moments, ionization potentials, and data relating to ultraviolet (UV), nuclear magnetic resonance (NMR), nuclear quadrupole resonance (NQR), photoelectron (PE), and microwave spectra of 1,3,4-oxadiazole and its derivatives <1984CHEC(6)427, 1996CHEC-II(4)268>. 

J. A. Pople, D. L. Beveridge, and P. A. Dobosh, Approximate self-consistent molecular orbital theory. V. Intermediate neglect of differential overlap, J. Chem. Phys. 47 2026 (1967). 

Another more successful MO approach, referred to as INDO (intermediate neglect of differential overlap), avoids the average electronic energy approximation [115]. Its concept is a self-consistent field perturbation calculation. The INDO approach permits computation of one-bond carbon-13 coupling constants. The results obtained for JCH agree well with the experimental data for hydrocarbons and molecules with — F, —OR,... 

The widespread application of MO theory to systems containing a bonds was sparked in large part by the development of extended Hiickel (EH) theory by Hoffmann (I) in 1963. At that time, 7r MO theory was practiced widely by chemists, but only a few treatments of a bonding had been undertaken. Hoffmann s theory changed this because of its conceptual simplicity and ease of applicability to almost any system. It has been criticized on various theoretical grounds but remains in widespread use today. A second approximate MO theory with which we are concerned was developed by Pople and co-workers (2) in 1965 who simplified the exact Hartree-Fock equations for a molecule. It has a variety of names, such as complete neglect of differential overlap (CNDO) or intermediate neglect of differential overlap (INDO). This theory is also widely used today. 

Hartree-Fock with Proper Dissociation Internally Consistent Self Consistent Orbitals Independent Electron Pair Approximation Intermediate Neglect of Differential Overlap Intermediate Retention of Differential Overlap Iterative Natural Orbital Ionization Potential... 

All calculations were carried out within the approximation of intermediate neglect of differential overlap (37-42) (INDO-RHF-SCF) which includes parameterization for transition metals. A restricted open-shell formalism, developed by Zerner et al. (37,38), was employed to prevent spin contamination and to make the quantitative evaluation of the relative spin state energies possible. This method has been used successfully to study simple transition metal complexes like [FeCl ]" (42), [CuCl ]2" ( ), and ferrocene ( ) as well as larger and more complicated systems like model oxyheme (61) and carbonylheme ( ) and model oxyhorseradish peroxidase ( ) complexes. 

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