Alkenes coupling with carbene complexes

C-C bond formation can be favored over /3-hydride elimination by changing the nature of the catalyst. Hence, cyclizations can be mediated by iridium carbene complexes resulting from a formal intramolecular cross-coupling of the alkene with an. s -C-H bond (Equation (40)). 

In addition to copper and rhodium catalysts commonly used in the generation of metal carbene complexes, other transition metals have also been explored in the diazo decomposition and subsequent ylide generation.Che and co-workers have recently studied ruthenium porphyrin-catalyzed diazo decomposition and demonstrated a three-component coupling reaction of a-diazo ester with a series of iV-benzylidene imines and alkenes to form functionalized pyrrolidines in excellent diastereoselectivities (Scheme 20). ... 

Whereas Fischer-type chromium carbenes react with alkenes, dienes, and alkynes to afford cyclopropanes, vinylcyclopropanes, and aromatic compounds, the iron Fischer-type carbene (47, e.g. R = Ph) reacts with alkenes and dienes to afford primarily coupled products (58) and (59) (Scheme 21). The mechanism proposed involves a [2 -F 2] cycloaddition of the alkene the carbene to form a metallacyclobutane see Metallacycle) (60). This intermediate undergoes jS-hydride elimination followed by reductive elimination to generate the coupled products. Carbenes (47) also react with alkynes under CO pressure (ca. 3.7 atm) to afford 6-ethoxy-o -pyrone complexes (61). The unstable metallacyclobutene (62) is produced by the reaction of (47) with 2-butyne in the absence of CO. Complex (62) decomposes to the pyrone complex (61). It has been suggested that the intermediate (62) is transformed into the vinylketene complex... 

Coupling of a Fischer carbene complex with an alkene can generate a vinylcarbene intermediate 12 via an insertion-rearrangement reaction, which can then further react with a double bond. For intramolecular reactions of tethered enynes 10, the products formed are bicyclic cyclopropanes 14 intermolecular reactions lead to cycloalkenylcyclopropanes. 

Another interesting coupling reaction was observed by Werner et al., [24] who coupled the carbene hgand in 39 with ethenylmagne-sium bromide to obtain allyl complexes 40 and 41 in up to 65 % yield (Scheme 13). Subsequent decomplexation gave the corresponding trisubstituted alkenes 42, which were obtained in quantitative yields. 

A very recent report highlights the cross-coupling of Fischer carbene complexes with ethyl diazoacetate to give push-pull alkenes such as 106 at ambient temperature using 15 mol-% CuBr as a catalyst (Scheme 46) [98] alkyl-, alkenyl- (105) and arylcarbenes provided comparable good chemical yields. 

Iwasawa has reported the gold(III)-catalyzed reaction of N-(o-ethynylphenyl)imi-nes with electron-rich alkenes to form polycyclic indole derivatives [26]. As an example, reaction of N-[l-(l-pentynyl)phenyl]imine 28 and tert-butyl vinyl ether with a catalytic amount of AuBrs in toluene at room temperature led to isolation of the polycyclic indole 29 in 80% yield as a mixture of diastereomers (Scheme 11.3). Conversion of 28 to 29 presumably occurs via initial intramolecular hydroamination to form the gold carbene containing azomethine ylide 30 that undergoes intermo-lecular [3 + 2] cydoaddition with tert-butyl vinyl ether to form the carbene complex 31. 1,2-Migration of the 7t-propyl group to the metal-bound carbon atom coupled with deauration then forms 29. This transformation is also catalyzed efficiently by PtCl2 [26]. 

Bis(adamantylimido) compounds, with monomeric chromium(VI) complexes, 5, 348 Bis(alkene) complexes conjugated, Rh complexes, 7, 214 mononuclear Ru and Os compounds, 6, 401 -02 in Ru and Os half-sandwich rj6-arenes, 6, 538 with tungsten carbonyls and isocyanides, 5, 685 Bis(u-alkenylcyclopentadienyl) complexes, with Ti(II), 4, 254 Bis(alkoxide) nitrogen-donor complexes, with Zr(IV), 4, 805 Bis(alkoxide) titanium alkynes, in cross-coupling, 4, 276 Bis(alkoxo) complexes, with bis-Cp Ti(IV), 4, 588 Bis[alkoxy(alkylamino)carbene]gold complexes, preparation, 2, 288... 

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