Journal Article10.1063/1.2431643
Density functional theory optimized basis sets for gradient corrected functionals: 3d transition metal systems.
Patrizia Calaminici,Florian Janetzko,Andreas M. Köster,Roberto Mejia-Olvera,Bernardo Zuniga-Gutierrez +4 more
281
TL;DR: Density functional theory optimized basis sets for gradient corrected functionals for 3d transition metal atoms are presented and results are compared with available experimental data as well as with other theoretical data from the literature.
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Abstract: Density functional theory optimized basis sets for gradient corrected functionals for 3d transition metal atoms are presented. Double zeta valence polarization and triple zeta valence polarization basis sets are optimized with the PW86 functional. The performance of the newly optimized basis sets is tested in atomic and molecular calculations. Excitation energies of 3d transition metal atoms, as well as electronic configurations, structural parameters, dissociation energies, and harmonic vibrational frequencies of a large number of molecules containing 3d transition metal elements, are presented. The obtained results are compared with available experimental data as well as with other theoretical data from the literature.
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