Issue 32, 2010

Density functional theory studies of the mechanistic aspects of olefinmetathesis reactions

Abstract

The potential energy surfaces of the reactions of Cl4MCH2 (M = Cr, Mo, W, Ru, Re) with ethylene, models of potential chain-carrying catalysts and olefins respectively in the transition metal-catalyzed olefin metathesis reaction, have been explored using density functional theory at the B3LYP/LACVP* level of theory. In Cl4MCH2 (M = Cr, Ru), the carbenoid complexes Cl3MCH2Cl have been found to be more stable than the corresponding carbene Cl4M[double bond, length as m-dash]CH2 complexes whereas in Cl4MCH2 (M = Mo, W, Re) the carbene complexes are more stable than the carbenoid complexes. The carbenoid complexes have been found not to favor the formation of metallacyclobutanes, a key step in the olefin metathesis reaction according to the Herrison–Chauvin mechanism, indicating that the active species for the metathesis reaction is a carbene complex and not a carbenoid complex. Therefore, even though the formation of metallacyclobutanes through formal [2+2] cycloaddition has been found to be a low-barrier process with each of the metal carbene complexes investigated, metathesis is likely to occur only in Cl4MCH2(M = Mo, W, Re) but not in Cl4MCH2(M = Cr, Ru) since the reaction surface in the latter complexes is likely to be populated by the carbenoid complex rather than the carbene complex. In Cl4W[double bond, length as m-dash]CH2 the kinetic and thermodynamic preference of the productive [2+2] pathway leading to the metallacyclobutane over the [3+2] pathway is unambiguous whereas in Cl4MoCH2 the [3+2] pathway is likely to be competitive with the [2+2] pathway. The metallacyclobutane formation in W and Re has been found to have lower barriers than in Mo, suggesting that the W and Re complexes may have a greater metathesis activity than the Mo complex.

Graphical abstract: Density functional theory studies of the mechanistic aspects of olefin metathesis reactions

Supplementary files

Article information

Article type
Paper
Submitted
02 Feb 2010
Accepted
19 May 2010
First published
09 Jul 2010

Dalton Trans., 2010,39, 7575-7587

Density functional theory studies of the mechanistic aspects of olefin metathesis reactions

R. Tia and E. Adei, Dalton Trans., 2010, 39, 7575 DOI: 10.1039/C002245D

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