Donor-Acceptor Bond in Nontransition and Transition Element Complexes: Studies with Natural Bonding Orbital Approach

O. Kh Poleshchuk; E. L. Kalinina; Yu A. Shanina; G. Frenking

doi:10.1023/A:1021847118400

Donor-Acceptor Bond in Nontransition and Transition Element Complexes: Studies with Natural Bonding Orbital Approach

O. Kh Poleshchuk, E. L. Kalinina, Yu A. Shanina, G. Frenking

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Abstract

Electronic structures of tin, antimony, titanium, and niobium chloride complexes were analyzed using density functional theory. Parameters of nuclear quadrupole resonance spectra calculated using pseudopotential and all-electron basis states were compared with the experimental values. It was shown that the use of the central atom pseudopotential leads to a significant deviation of the atomic quadrupole coupling constants from their experimental values. The bonding in complexes was analyzed by making use of the natural orbitals of metal-chlorine and metal-ligand bonds. Donor-aceptor interactions in complexes of main group elements are described within the framework of sp-hybridization, while those in the transition element complexes, within the sd-hybridization framework.

Original language	English
Pages (from-to)	53-59
Number of pages	7
Journal	Russian Journal of Coordination Chemistry/Koordinatsionnaya Khimiya
Volume	29
Issue number	1
DOIs	https://doi.org/10.1023/A:1021847118400
State	Published - Jan 2003
Externally published	Yes

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abstract = "Electronic structures of tin, antimony, titanium, and niobium chloride complexes were analyzed using density functional theory. Parameters of nuclear quadrupole resonance spectra calculated using pseudopotential and all-electron basis states were compared with the experimental values. It was shown that the use of the central atom pseudopotential leads to a significant deviation of the atomic quadrupole coupling constants from their experimental values. The bonding in complexes was analyzed by making use of the natural orbitals of metal-chlorine and metal-ligand bonds. Donor-aceptor interactions in complexes of main group elements are described within the framework of sp-hybridization, while those in the transition element complexes, within the sd-hybridization framework.",

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AU - Shanina, Yu A.

AU - Frenking, G.

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N2 - Electronic structures of tin, antimony, titanium, and niobium chloride complexes were analyzed using density functional theory. Parameters of nuclear quadrupole resonance spectra calculated using pseudopotential and all-electron basis states were compared with the experimental values. It was shown that the use of the central atom pseudopotential leads to a significant deviation of the atomic quadrupole coupling constants from their experimental values. The bonding in complexes was analyzed by making use of the natural orbitals of metal-chlorine and metal-ligand bonds. Donor-aceptor interactions in complexes of main group elements are described within the framework of sp-hybridization, while those in the transition element complexes, within the sd-hybridization framework.

AB - Electronic structures of tin, antimony, titanium, and niobium chloride complexes were analyzed using density functional theory. Parameters of nuclear quadrupole resonance spectra calculated using pseudopotential and all-electron basis states were compared with the experimental values. It was shown that the use of the central atom pseudopotential leads to a significant deviation of the atomic quadrupole coupling constants from their experimental values. The bonding in complexes was analyzed by making use of the natural orbitals of metal-chlorine and metal-ligand bonds. Donor-aceptor interactions in complexes of main group elements are described within the framework of sp-hybridization, while those in the transition element complexes, within the sd-hybridization framework.

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JF - Russian Journal of Coordination Chemistry/Koordinatsionnaya Khimiya

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Donor-Acceptor Bond in Nontransition and Transition Element Complexes: Studies with Natural Bonding Orbital Approach

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