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https://hdl.handle.net/2440/4656
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Type: | Journal article |
Title: | Migration of a phenyl group from co-ordinated CH₂(PPh₂)₂ to an acetylide on an Ru₃ cluster: crystal structure of [Ru₃(µ-H)(µ3-PPhCH₂PPh₂)(µ₃-PhC₂But)(CO)₆] |
Other Titles: | Migration of a phenyl group from co-ordinated CH(2)(PPh(2))(2) to an acetylide on an Ru(3) cluster: crystal structure of [Ru(3)(mu-H)(mu3-PPhCH(2)PPh(2))(mu(3)-PhC(2)But)(CO)(6)] |
Author: | Bruce, M. Humphrey, P. Skelton, B. White, A. Costuas, K. |
Citation: | Journal- Chemical Society Dalton Transactions, 1999; 3(3):479-486 |
Publisher: | Royal Society of Chemistry (RSC) |
Issue Date: | 1999 |
ISSN: | 0300-9246 1364-5447 |
Statement of Responsibility: | Michael I. Bruce, Paul A. Humphrey, Brian W. Skelton, Allan H. White, Karine Costuas and Jean-François Halet |
Abstract: | Thermolysis (refluxing toluene, 60 h) of [Ru3(µ-H)(µ3-C2But)(µ-dppm)(CO)7] resulted in phenyl transfer from co-ordinated dppm to the µ3-acetylide to give [Ru3(µ-H)(µ3-PPhCH2PPh2)(µ3-PhC2But)(CO)6] in 41% yield, fully characterised by X-ray determinations of thf and CH2Cl2 monosolvates. The alkyne is co-ordinated to the Ru3 cluster such that the C(1)–C(2) vector forms an angle of 23° with the Ru(1)–Ru(2) vector. This distortion brings two C atoms of the alkyne Ph group close to Ru(2). Density functional and extended Hückel calculations carried out on the new compound indicated that the unusual co-ordination of the alkyne ligand can be attributed to the stereoelectronic asymmetry of the metallic fragment. |
Rights: | Copyright status unknown |
DOI: | 10.1039/A807008C |
Published version: | http://dx.doi.org/10.1039/a807008c |
Appears in Collections: | Aurora harvest 2 Chemistry publications |
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