Dispersion, solvent and metal effects in the binding of gold cations to alkynyl ligands: Implications for Au(i) catalysis

Luisa Ciano; Natalie Fey; Connor J.V. Halliday; Jason M. Lynam; Lucy M. Milner; Nimesh Mistry; Natalie E. Pridmore; Nell S. Townsend; Adrian C. Whitwood

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Dispersion, solvent and metal effects in the binding of gold cations to alkynyl ligands: Implications for Au(i) catalysis

Chemical Communications (2015) 51(47) 9702-9705

DOI: 10.1039/c5cc02629f

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Abstract

The coordination modes of the [Au(PPh3)]+ cation to metal alkynyl complexes have been investigated. On addition to ruthenium, a vinylidene complex, [Ru(η5-C5H5)(PPh3)2(CCPh{AuPPh3})]+, is obtained while addition to a gold(iii) compound gives di- and trinuclear gold complexes depending on the conditions employed. In the trinuclear species, a gold(i) cation is sandwiched between two gold(iii) alkynyl complexes, suggesting that coordination of multiple C-C triple bonds to gold is facile.

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Ciano, L., Fey, N., Halliday, C. J. V., Lynam, J. M., Milner, L. M., Mistry, N., … Whitwood, A. C. (2015). Dispersion, solvent and metal effects in the binding of gold cations to alkynyl ligands: Implications for Au(i) catalysis. Chemical Communications, 51(47), 9702–9705. https://doi.org/10.1039/c5cc02629f

Dispersion, solvent and metal effects in the binding of gold cations to alkynyl ligands: Implications for Au(i) catalysis

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