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3.6.13.1.1.1 Method 1: Reductive Elimination from Stoichiometric Organogold(III) Complexes

DOI: 10.1055/sos-SD-103-00038

Hopkinson, M. N.; Gouverneur, V.Science of Synthesis Knowledge Updates, (20112101.

Reductive elimination from suitably substituted gold(III) complexes to afford products of homocoupling and cross coupling and gold(I) has been widely observed. A series of studies by Kochi and Komiya, among others, have focused on dialkylgold(III) complexes. Whilst the simple dimeric dimethylgold(III) complex 1 detonates violently upon melting at 78.5°C,[‌15‌] gold(III) derivatives of the form 2 {cis-[Au(Me)2X(PR13)]} stabilized by phosphine ligands thermally emit ethane with rates dependent on the nature of the phosphine and the substituent X (Scheme 1).[‌16‌‌24‌] In some cases, complexes 2 can be prepared via oxidative addition of iodomethane to the corresponding methylgold(I) species (for X = I)[‌25‌‌28‌] or dimethylaurate(I) (for X = Me).[‌29‌,‌30‌] Reductive elimination from 2 is thought to occur from a three-coordinate intermediate formed upon dissociation of the phosphine. The addition of excess phosphine to the reaction mixture severely retards formation of ethane. Reductive elimination of sp2-[‌19‌,‌20‌,‌31‌‌33‌] and sp-hybridized[‌34‌] organic fragments from gold(III) complexes has also been reported. Thermolysis of triorgano-substituted species of type 2 (when X is organic) produces mixtures of coupled products resulting from Me–X and Me–Me oxidative coupling.[‌35‌] When X is aryl, hetaryl, or alkenyl, C(sp3)–C(sp2) coupling is favored, whereas ethane is generated as the major product with sp-hybridized substituents (X = alkynyl).

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Meeeeeeeeee 8

M8 M Meeee (Meeeee/MeM) Mee
Me Me 88:88 [‌88‌]
Me Me 8:88 [‌88‌]
Me (M)-MM═MMMe 8:888 [‌88‌]
Me M≡MMe 88:8 [‌88‌]

References


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