resumo
eta(5)-Cyclopentadienyl(tricarbonyl)methylmolybdenum(II) (1) is oxidized by tert-butylhydroperoxide (TBHP) to yield eta(5)-cyclopentadienyl(dioxo)methylmolybdenum(VI) (2) and eta(5)-cyclopentadienyl-(oxo)-(peroxo)methylmolybdenum(VI) (3). These two complexes are active catalysts for olefin epoxidation in the presence of TBHP, but inactive in its absence. DFT calculations of the possible pathways, with MP2 single-point energies, indicate that TBHP can react with 2 to form the active intermediate CpMo(O)(OH)(OOCH3)CH3 (B) or, the peroxo complex 3. Formation of B and epoxidation from B have relatively low activation barriers (gas-phase MP2 Delta E 21 kcal mol(-1)), while formation of complex 3 from 2 exhibits a higher barrier (38 kcal mol(-1)). The peroxo complex 3 can be further activated by excess TBHP to yield a second active intermediate, CpMo(O-2)(OH)(OOCH3)CH3 (C) (24 kcal mol(-1)), that undergoes reaction with olefin, forming epoxide and the intermediate B. Both intermediates B and C display end-on-bound alkyl peroxo ligands. Barriers are comparable for several pathways, Suggesting that more than one may take place. The role of solvent (PCM, dichloromethane) is negligible, since the deviations between gas-phase and solvent free energies are similar to 1-3 kcal mol(-1).
palavras-chave
EFFECTIVE CORE POTENTIALS; TERT-BUTYL HYDROPEROXIDE; MOLECULAR-ORBITAL METHODS; GAUSSIAN-TYPE BASIS; ALKYL HYDROPEROXIDES; BASIS-SETS; TUNGSTEN COMPLEXES; HYDROGEN-PEROXIDE; METHYLRHENIUM TRIOXIDE; ORGANIC HYDROPEROXIDES
categoria
Chemistry
autores
Costa, PJ; Calhorda, MJ; Kuhn, FE
nossos autores
Grupos
agradecimentos
M.J.C. and P.J.C. thank FCT and FEDER for financial support (PPDCT/QUI/58925/2004), and P.J.C. acknowledges FCT for a grant (SFRH/BPD/27082/2006). The Leibniz-Rechenzentrum Munchen is gratefully acknowledged for the CPU time provided in the LRZ Linux Cluster. The authors thank Accoes Integradas Luso-Alemaes (A-3/05). We thank R. Poli for helpful discussions.