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Quasi-Restricted Orbital Treatment for the Density Functional Theory Calculations of the Spin-Orbit Term of Zero-Field Splitting Tensors.
Sugisaki, Kenji; Toyota, Kazuo; Sato, Kazunobu; Shiomi, Daisuke; Takui, Takeji.
Afiliação
  • Sugisaki K; Department of Chemistry and Molecular Materials Science, Graduate School of Science, Osaka City University , 3-3-138 Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan.
  • Toyota K; Department of Chemistry and Molecular Materials Science, Graduate School of Science, Osaka City University , 3-3-138 Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan.
  • Sato K; Department of Chemistry and Molecular Materials Science, Graduate School of Science, Osaka City University , 3-3-138 Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan.
  • Shiomi D; Department of Chemistry and Molecular Materials Science, Graduate School of Science, Osaka City University , 3-3-138 Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan.
  • Takui T; Department of Chemistry and Molecular Materials Science, Graduate School of Science, Osaka City University , 3-3-138 Sugimoto, Sumiyoshi-ku, Osaka 558-8585, Japan.
J Phys Chem A ; 120(49): 9857-9866, 2016 Dec 15.
Article em En | MEDLINE | ID: mdl-27973798
ABSTRACT
A quasi-restricted orbital (QRO) approach for the calculation of the spin-orbit term of zero-field splitting tensors (DSO tensors) by means of density functional theory (DFT) importantly features in the fact that it is free from spin contamination problems because it uses spin eigenfunctions for the zeroth order wave functions. In 2011, however, Schmitt and co-workers pointed out that in the originally proposed QRO working equation some possible excitations were not included in their sum-over-states procedure, which causes spurious DSO contributions from closed-shell subsystems located far from the magnetic molecule under study. We have revisited the derivation of the QRO working equation and modified it, making it include all possible types of excitations in the sum-over-states procedure. We have found that the spurious DSO contribution can be eliminated by taking into account contributions from all possible types of singly excited configuration state functions. We have also found that only the SOMO(α) → SOMO(ß) excited configurations have nonzero contributions to the DSO tensors as long as α and ß spin orbitals have the same spatial distributions and orbital energies. For the DSO tensor calculations, by using a ground state wave function free from spin contamination, we propose a natural orbital-based Pederson-Khanna (NOB-PK) method, which utilizes the single determinant wave function consisting of natural orbitals in conjunction with the Pederson-Khanna (PK) type perturbation treatment. Some relevant calculations revealed that the NOB-PK method can afford more accurate DSO tensors than the conventional PK method as well as the QRO approach in MnII complexes and ReIV-based single molecule magnets.
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Base de dados: MEDLINE Idioma: En Revista: J Phys Chem A Assunto da revista: QUIMICA Ano de publicação: 2016 Tipo de documento: Article País de afiliação: Japão
Buscar no Google
Base de dados: MEDLINE Idioma: En Revista: J Phys Chem A Assunto da revista: QUIMICA Ano de publicação: 2016 Tipo de documento: Article País de afiliação: Japão