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Insights into the intramolecular acetate-mediated formation of ruthenium vinylidene complexes: a ligand-assisted proton shuttle (LAPS) mechanism.
Dalton Trans. 2010 Nov 21; 39(43):10432-41.DT

Abstract

The ruthenium bis-acetate complex Ru(κ(2)-OAc)(2)(PPh(3))(2) reacts with HC≡CPh to afford the vinylidene-containing species Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHPh)(PPh(3))(2). An experimental study has demonstrated that this reaction occurs under very mild conditions, with significant conversion being observed at 255 K. At lower temperatures, evidence for a transient metallo-enol ester species Ru(κ(1)-OAc)(OC{Me}O-C=CHPh)(PPh(3))(2) was obtained. A comprehensive theoretical study to probe the nature of the alkyne/vinylidene tautomerisation has been undertaken using Density Functional Theory. Calculations based on a number of isomers of the model system Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHMe)(PH(3))(2) demonstrate that both the η(2)(CC) alkyne complex Ru(κ(1)-OAc)(κ(2)-OAc)(η(2)-HC≡CMe)(PH(3))(2) and the C-H agostic σ-complex Ru(κ(1)-OAc)(κ(2)-OAc)(η(2){CH}-HC≡CMe)(PH(3))(2) are minima on the potential energy surface. The lowest energy pathway for the formation of the vinylidene complex involves the intramolecular deprotonation of the σ-complex by an acetate ligand followed by reprotonation of the subsequently formed alkynyl ligand. This process is thus termed a Ligand-Assisted Proton Shuttle (LAPS). Calculations performed on the full experimental system Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHPh)(PPh(3))(2) reinforce the notion that lowest energy pathway involves the deprotonation/reprotonation of the alkyne by an acetate ligand. Inclusion of the full ligand substituents in the calculations are necessary to reproduce the experimental observation of Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHPh)(PPh(3))(2) as the thermodynamic product.

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Authors+Show Affiliations

Johnson DG
Department of Chemistry, University of York, Heslington, York, UK YO10 5DD.
Lynam JM
No affiliation info available
Slattery JM
No affiliation info available
Welby CE
No affiliation info available

Pub Type(s)

Journal Article

Language

eng

PubMed ID

20938549

Citation

Johnson, David G., et al. "Insights Into the Intramolecular Acetate-mediated Formation of Ruthenium Vinylidene Complexes: a Ligand-assisted Proton Shuttle (LAPS) Mechanism." Dalton Transactions (Cambridge, England : 2003), vol. 39, no. 43, 2010, pp. 10432-41.
Johnson DG, Lynam JM, Slattery JM, et al. Insights into the intramolecular acetate-mediated formation of ruthenium vinylidene complexes: a ligand-assisted proton shuttle (LAPS) mechanism. Dalton Trans. 2010;39(43):10432-41.
Johnson, D. G., Lynam, J. M., Slattery, J. M., & Welby, C. E. (2010). Insights into the intramolecular acetate-mediated formation of ruthenium vinylidene complexes: a ligand-assisted proton shuttle (LAPS) mechanism. Dalton Transactions (Cambridge, England : 2003), 39(43), 10432-41. https://doi.org/10.1039/c0dt00431f
Johnson DG, et al. Insights Into the Intramolecular Acetate-mediated Formation of Ruthenium Vinylidene Complexes: a Ligand-assisted Proton Shuttle (LAPS) Mechanism. Dalton Trans. 2010 Nov 21;39(43):10432-41. PubMed PMID: 20938549.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Insights into the intramolecular acetate-mediated formation of ruthenium vinylidene complexes: a ligand-assisted proton shuttle (LAPS) mechanism. AU - Johnson,David G, AU - Lynam,Jason M, AU - Slattery,John M, AU - Welby,Christine E, Y1 - 2010/10/12/ PY - 2010/10/13/entrez PY - 2010/10/13/pubmed PY - 2010/10/13/medline SP - 10432 EP - 41 JF - Dalton transactions (Cambridge, England : 2003) JO - Dalton Trans VL - 39 IS - 43 N2 - The ruthenium bis-acetate complex Ru(κ(2)-OAc)(2)(PPh(3))(2) reacts with HC≡CPh to afford the vinylidene-containing species Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHPh)(PPh(3))(2). An experimental study has demonstrated that this reaction occurs under very mild conditions, with significant conversion being observed at 255 K. At lower temperatures, evidence for a transient metallo-enol ester species Ru(κ(1)-OAc)(OC{Me}O-C=CHPh)(PPh(3))(2) was obtained. A comprehensive theoretical study to probe the nature of the alkyne/vinylidene tautomerisation has been undertaken using Density Functional Theory. Calculations based on a number of isomers of the model system Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHMe)(PH(3))(2) demonstrate that both the η(2)(CC) alkyne complex Ru(κ(1)-OAc)(κ(2)-OAc)(η(2)-HC≡CMe)(PH(3))(2) and the C-H agostic σ-complex Ru(κ(1)-OAc)(κ(2)-OAc)(η(2){CH}-HC≡CMe)(PH(3))(2) are minima on the potential energy surface. The lowest energy pathway for the formation of the vinylidene complex involves the intramolecular deprotonation of the σ-complex by an acetate ligand followed by reprotonation of the subsequently formed alkynyl ligand. This process is thus termed a Ligand-Assisted Proton Shuttle (LAPS). Calculations performed on the full experimental system Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHPh)(PPh(3))(2) reinforce the notion that lowest energy pathway involves the deprotonation/reprotonation of the alkyne by an acetate ligand. Inclusion of the full ligand substituents in the calculations are necessary to reproduce the experimental observation of Ru(κ(1)-OAc)(κ(2)-OAc)(=C=CHPh)(PPh(3))(2) as the thermodynamic product. SN - 1477-9234 UR - https://www.unboundmedicine.com/medline/citation/20938549/Insights_into_the_intramolecular_acetate_mediated_formation_of_ruthenium_vinylidene_complexes:_a_ligand_assisted_proton_shuttle__LAPS__mechanism_ L2 - https://doi.org/10.1039/c0dt00431f DB - PRIME DP - Unbound Medicine ER -