delicate balance of complexation vs. activation of alkanes interacting with [Re(Cp)(CO)(PF₃)] studied with NMR and time-resolved IR spectroscopy

delicate balance of complexation vs. activation of alkanes interacting with [Re(Cp)(CO)(PF₃)] studied with NMR and time-resolved IR spectroscopy

The organometallic alkane complexes Re(Cp)(CO)(PF₃)(alkane) and Re(Cp)(CO)₂(alkane) have been detected after the photolysis of Re(Cp)(CO)₂(PF₃) in alkane solvent. NMR and time-resolved IR experiments reveal that the species produced by the interaction of n-pentane with [Re(Cp)(CO)(PF₃)] are an equil...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 104; no. 17; pp. 6927 - 6932
Main Authors: Ball, Graham E, Brookes, Christopher M, Cowan, Alexander J, Darwish, Tamim A, George, Michael W, Kawanami, Hajime K, Portius, Peter, Rourke, Jonathan P
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 24-04-2007
National Acad Sciences
Series:Coordination Chemistry of Saturated Molecules Special Feature
Subjects:
Chemical compounds
Chemical reactions
Hydrocarbons
NMR
Nuclear magnetic resonance
Physical Sciences
Solvents
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Summary:The organometallic alkane complexes Re(Cp)(CO)(PF₃)(alkane) and Re(Cp)(CO)₂(alkane) have been detected after the photolysis of Re(Cp)(CO)₂(PF₃) in alkane solvent. NMR and time-resolved IR experiments reveal that the species produced by the interaction of n-pentane with [Re(Cp)(CO)(PF₃)] are an equilibrium mixture of Re(Cp)(CO)(PF₃)(pentane) and Re(Cp)(CO)(PF₃)(pentyl)H. The interaction of cyclopentane with [Re(Cp)(CO)(PF₃)] most likely results in a similar equilibrium between cyclopentyl hydride and cyclopentane complexes. An increasing proportion of alkane complex is observed on going from n-pentane to cyclopentane to cyclohexane, where only a small amount, if any, of the cyclohexyl hydride form is present. In general, when [Re(Cp)(CO)(PF₃)] reacts with alkanes, the products display a higher degree of oxidative cleavage in comparison with [Re(Cp)(CO)₂], which favors alkane complexation without activation. Species with the formula Re(Cp)(CO)(PF₃)(alkane) have higher thermal stability and lower reactivity toward CO than the analogous Re(Cp)(CO)₂(alkane) complexes.
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Author contributions: G.E.B., M.W.G., and J.P.R. designed research; G.E.B., C.M.B., A.J.C., T.A.D., M.W.G., H.K.K., P.P., and J.P.R. performed research; and G.E.B., A.J.C., T.A.D., and M.W.G. wrote the paper.
Edited by John E. Bercaw, California Institute of Technology, Pasadena, CA, and approved March 7, 2007
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0610212104