Alkynes coupling with carbene complexes

The stepwise coupling of two cis ligands as depicted in Scheme 3 has been verified as involving a sequence of three discrete steps at low temperatures, allowing the isolation of the relevant intermediates as individual compounds [18]. When a chelated tetracarbonyl amino-vinyl carbene complex (chelated analogue of intermediate B in Scheme 3) was reacted with an electron-deficient alkyne under controlled conditions, a l,4,5- 3-dienylcarbene tetracarbonyl chromium complex (corresponding to intermediate D in Scheme 3) was formed. It underwent thermal decomposition to give phenol derivatives as the final products. 

Tridentate pincer bis-carbene [114] and N-carbamoyl-substituted heterocyclic carbene complexes of Pd(II) [115] have also been used to couple aryl bromides and iodides with aromatic or aliphatic alkynes. Surprisingly, the latter catalytic system requires the use of 1 mol % of PPh3. Its role in the catalytic cycle is still unclear but it might facilitate the initial generation of Pd(0) species. 

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... 

The benzannulation reaction is a versatile method for the formation of polysubstituted aromatic compounds such as naphthoquinones. This three-component coupling involves the reaction between an a. unsaturated Fischer carbene, an acetylene, and a CO ligand, and initially proceeds by cycloaddition of the alkyne with the carbene complex. The regioselectivity of this step is highly dependent on the substituents on the acetylene moiety and is usually low in the case of internal acetylenes. 

The carbene complex starting materials mentioned above include an enamine structure which is coupled with an alkyne. Vice versa, the coupling of alkynylcarbene complexes with enamines leads to cyclopentanoid products as well. The complementary reaction of tungsten alkynylcarbene complex 59 with enamine... 

The photochemistry of metal carbyne complexes is in many ways similar to the photochemistry of metal carbene complexes, but the reactions have not been developed or become as synthetically useful as the photochemistry of metal carbene complexes. Among reported reactions are couplings with ancillary CO ligands to form ketenyl complexes, protonation of the carbyne carbon, insertions into C-H bonds, addition of the carbyne carbon to an alkyne to produce a cyclopropenyl complex, and electron-transfer reactions. ... 

Reactions A carbyne can couple with another carbyne to give an alkyne or alkyne complex.For instance, Br(CO)4Cr CPh reacts with Ce(IV) to give free PhC CPh. Carbynes also have extensive photochemistry. In the Fischer series, the carbyne carbon is electrophilic and subject to nucleophilic attack, for example, by PMcj, pyridine, RLi, or isonitrile (= Nu) to give a carbene of the type L M=CR(Nu). Alternatively, the nucleophile may attack the metal in L (CO)M=CR and produce a ketenyl complex... 

Alkynes.- The polymerisation of substituted acetylenes by Mo and W based catalysts is reviewed with evidence for the mediation of carbenes ° . A mechanism of catalytic cyclotrimerisation of hex-3-yne via a cyclobutadienenickel complex is proposed . Examples of alkyne coupling , cyclotetramerisation of HChCCHjOCgH Me-4208 and cyclotrimerisation of RC=CC02R (R=Me, ph,... 

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