Chemical bonding in "early-late" transition metal complexes [(H2N)3M-M′(CO)4] (M = Ti, Zr, Hf; M′ = Co, Rh, Ir)

Andreas Krapp, Gernot Frenking

科研成果: 期刊稿件文章同行评审

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摘要

Quantum chemical DFT calculations at the BP86/TZ2P level have been carried out for the complex [HSi(SiH2NH)3Ti-Co(CO)4], which is a model for the experimentally observed compound [MeSi{SiMe2N(4-MeC6H4)}3Ti-Co(CO)4] and for the series of model systems [(H2N)3M-M′(CO)4] (M = Ti, Zr, Hf; M′ = Co, Rh, Ir). The Ti-Co bond in [HSi(SiH2NH)3Ti-Co(CO)4] has a theoretically predicted BDE of De = 59.3 kcal/mol. The bonding analysis suggests that the titanium atom carries a large positive charge, while the cobalt atom is nearly neutral. The covalent and electrostatic contributions to the Ti-Co attraction have similar strength. The Ti-Co bond can be classified as a polar single bond, which has only little π contribution. Calculations of the model compound (H2N)3Ti-Co(CO)4 show that the rotation of the amino groups has a very large influence on the length and on the strength of the Ti-Co bond. The M-M′ bond in the series [(H2N)3M-M′(CO)4] becomes clearly stronger with Ti < Zr < Hf, while the differences between the bond strengths due to change of the atoms M′ are much smaller. The strongest M-M′ bond is predicted for [(H2N)3Hf-Ir(CO)4].

源语言英语
页(从-至)141-148
页数8
期刊Theoretical Chemistry Accounts
127
3
DOI
出版状态已出版 - 2010
已对外发布

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