The performance of a family of density functional methods

Abstract

The results of a systematic study of molecular properties by density functional theory (DFT) are presented and discussed. Equilibrium geometries, dipole moments, harmonic vibrational frequencies, and atomization energies were calculated for a set of 32 small neutral molecules by six different local and gradient-corrected DFT methods, and also by the ab initio methods Hartree–Fock, second-order Mo/ller–Plesset, and quadratic configuration interaction with single and double substitutions (QCISD). The standard 6-31G* basis set was used for orbital expansion, and self-consistent Kohn–Sham orbitals were obtained by all DFT methods, without employing any auxiliary fitting techniques. Comparison with experimental results shows the density functional geometries and dipole moments to be generally no better than or inferior to those predicted by the conventional ab initio methods with this particular basis set. The density functional vibrational frequencies compare favorably with the ab initio results, while for atomization energies, two of the DFT methods give excellent agreement with experiment and are clearly superior to all other methods considered.

Keywords

Basis setDensity functional theoryAb initioDipoleHybrid functionalChemistryAtomic orbitalAb initio quantum chemistry methodsAtomic physicsHartree–Fock methodMolecular physicsComputational chemistryMoleculePhysicsQuantum mechanics

Affiliated Institutions

Carnegie Mellon University US

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Publication Info

Year: 1993
Type: article
Volume: 98
Issue: 7
Pages: 5612-5626
Citations: 1906
Access: Closed

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APA Style

                            
                                    Benny G. Johnson, 
                                
                                    Peter M. W. Gill, 
                                
                                    John A. Pople
                                
                            (1993). 
                            The performance of a family of density functional methods. 
                            The Journal of Chemical Physics
                            , 98
                            (7)
                            , 5612-5626.
                            https://doi.org/10.1063/1.464906

Identifiers

DOI: 10.1063/1.464906

Data Quality

Data completeness: 77%