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Quantum chemical studies of propene, ethylene, acetylene and dihydrogen reactivity in the insertion reaction into the titanium-alkyl bond

✍ Scribed by Ivan I. Zakharov; Vladimir A. Zakharov; Georgii M. Zhidomirov

Publisher: John Wiley and Sons
Year: 1996
Tongue: English
Weight: 342 KB
Volume: 5
Category: Article
ISSN: 1022-1344
DOI: 10.1002/mats.1996.040050504

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✦ Synopsis

Abstract

Using the ab initio method of SCF MO LCAOSCF MO LCAO: Self‐consistent field molecular orbital linear combination of atomic orbitals.

in a valency‐splitted basis of the Gaussian functions we have studied the addition of various monomers (C~3~H~8~, C~2~H~4~, C~2~H~2~) and dihydrogen to the titanium‐alkyl bond in the complex H~2~TiCH~3~. The structure of transition states in the insertion reaction, heats of π‐complex formation and activation energies for the insertion of the coordinated monomers have been calculated. The calculation results show that the reactivity decreases in the order C~2~H~2~ > C~2~H~4~ > C~3~H~8~ > H~2~. According to the results obtained, the energy of the π^*^‐antibonding orbital of monomers can serve as an index of relative reactivity in the insertion reaction into the metal‐alkyl bond.

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