Substituent effects and the mechanism of alkene metathesis catalyzed by ruthenium dichloride catalysts

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University of Ioannina
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2005 (EN)
Substituent effects and the mechanism of alkene metathesis catalyzed by ruthenium dichloride catalysts (EN)

Tsipis, A. C. (EN)

Πανεπιστήμιο Ιωαννίνων. Σχολή Θετικών Επιστημών. Τμήμα Χημείας (EL)
Tsipis, A. C. (EN)

Density functional theory calculations are reported concerning the dissociative mechanism for alkene metathesis by ruthenium dichloride catalysts, including both bisphosphine and diaminocarbene/phosphine complexes. The calculations use a hierarchy of models, ranging from [(L)(PH3)Ru(Cl)2(CH2)] (L = PH3 or diaminocarbene) through the larger [(L)(PMe3)Ru(Cl)2(CHPh)] to the "�real"� [(L)(PCy3)Ru(Cl)2(CHPh)]. Calculations show that the rate-limiting step for metathesis is either ring closing from an alkene complex to form a ruthena-cyclobutane, or ring-opening of the latter intermediate to form an isomeric alkene complex. The higher efficiency of the diaminocarbene based catalysts is due to the stabilization of the formal +IV oxidation state of the ruthenium centre in the metallacycle. This effect is partly masked in the smaller model systems due to a previously unnoticed stereoelectronic effect. The calculations do not reproduce the experimental observation whereby the initiation step, phosphine dissociation, is more energetically demanding and hence slower for the diaminocarbene-containing catalyst system than for the bisphosphine. Further calculations on the corresponding bond energies using a variety of DFT and hybrid DFT/molecular mechanics methods all find instead a larger phosphine dissociation energy for the bisphosphine catalyst. This reversed order of binding energies would in fact be the one expected based on the stronger trans influence of the diaminocarbene ligand. The discrepancy with experiment is small and could have a number of causes which are discussed here. (EN)

Πανεπιστήμιο Ιωαννίνων (EL)
University of Ioannina (EN)

Dalton Transactions (EN)



Royal Society of Chemistry (EN)

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