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Indenyl effect due to metal slippage? Computational exploration of rhodium-catalyzed acetylene [2+2+2] cyclotrimerization

The mechanism of CpRh (Cp=cyclopentadienyl) and IndRh (Ind=indenyl)- catalyzed acetylene [2+2+2] cyclotrimerization has been revisited aiming at finding an explanation for the better performance of the latter catalyst found experimentally. The hypothesis that an ancillary ligand of the precatalyst remains bonded to the metal center throughout the whole catalytic cycle, based on the experimental evidence that the nature of this ligand can exert some control in cocyclotrimerization of different alkynes, is considered. Strong hapticity variations occur in both the CpRh- and IndRh-catalyzed processes. As the Ind ligand undergoes a more facile slippage than Cp, the energy profile is far smoother in the IndRh-catalyzed cyclotrimerization. This difference in the energetics of the process translates into an enhanced activity of the IndRh catalyst, in nice agreement with experiment. Caution, wet ligand! An alternative mechanism for acetylene [2+2+2] cyclotrimerization to benzene catalyzed by RhI half-metallocenes is proposed (see figure), based on an extensive computational exploration and electronic structure analyses. The mechanism explains the experimentally observed indenyl effect in terms of a more facile slippage of [RhI] on the indenyl versus cyclopentadienyl ligand

We thank the HPC-EUROPA2 project (project number: 228398) with the support of the European Commission-Capacities Area-Research Infrastructures, the University of Padova (CPDA127392/12), the Netherlands Organization for Scientific Research (NWO-CW and NWO-EW), the Ministerio de Ciencia e Innovacion (MICINN, project number CTQ2011-25086/BQU), the European Fund for Regional Development (FEDER, grant UNGI08-4E-003), and the DIUE of the Generalitat de Catalunya (project number 2009SGR528) for financial support

Wiley-VCH Verlag

Manager: Ministerio de Ciencia e Innovaci贸n (Espanya)
Generalitat de Catalunya. Ag猫ncia de Gesti贸 d鈥橝juts Universitaris i de Recerca
Author: Orian, Laura
Swart, Marcel
Bickelhaupt, F. Matthias
Abstract: The mechanism of CpRh (Cp=cyclopentadienyl) and IndRh (Ind=indenyl)- catalyzed acetylene [2+2+2] cyclotrimerization has been revisited aiming at finding an explanation for the better performance of the latter catalyst found experimentally. The hypothesis that an ancillary ligand of the precatalyst remains bonded to the metal center throughout the whole catalytic cycle, based on the experimental evidence that the nature of this ligand can exert some control in cocyclotrimerization of different alkynes, is considered. Strong hapticity variations occur in both the CpRh- and IndRh-catalyzed processes. As the Ind ligand undergoes a more facile slippage than Cp, the energy profile is far smoother in the IndRh-catalyzed cyclotrimerization. This difference in the energetics of the process translates into an enhanced activity of the IndRh catalyst, in nice agreement with experiment. Caution, wet ligand! An alternative mechanism for acetylene [2+2+2] cyclotrimerization to benzene catalyzed by RhI half-metallocenes is proposed (see figure), based on an extensive computational exploration and electronic structure analyses. The mechanism explains the experimentally observed indenyl effect in terms of a more facile slippage of [RhI] on the indenyl versus cyclopentadienyl ligand
We thank the HPC-EUROPA2 project (project number: 228398) with the support of the European Commission-Capacities Area-Research Infrastructures, the University of Padova (CPDA127392/12), the Netherlands Organization for Scientific Research (NWO-CW and NWO-EW), the Ministerio de Ciencia e Innovacion (MICINN, project number CTQ2011-25086/BQU), the European Fund for Regional Development (FEDER, grant UNGI08-4E-003), and the DIUE of the Generalitat de Catalunya (project number 2009SGR528) for financial support
Document access: http://hdl.handle.net/2072/296696
Language: eng
Publisher: Wiley-VCH Verlag
Rights: Tots els drets reservats
Subject: Funcional de densitat, Teoria del
Density functionals
Rodi
Rhodium
Title: Indenyl effect due to metal slippage? Computational exploration of rhodium-catalyzed acetylene [2+2+2] cyclotrimerization
Type: info:eu-repo/semantics/article
Repository: Recercat

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