Halides, aryl reaction with copper acetylides

Available information on the mechanism of cyclocondensation is rather contradictory. According to one hypothesis, both the condensation of aryl halides with copper acetylides and the cyclization occur in the same copper complex (63JOC2163 63JOC3313). An alternative two-stage reaction route has also been considered condensation followed by cyclization (66JOC4071 69JA6464). However, there is no clear evidence for this assumption in the literature and information on the reaction of acetylenyl-substituted acids in conditions of acetylide synthesis is absent. 

Under certain conditions, alkynes can be coupled to aryl halides.280 When aryl halides react with copper acetylides to give 1-aryl alkynes such as 431, the reaction is known as Stephens-Castro coupling.28l Both aliphatic and aromatic substituents can be attached to the alkyne unit, and a variety of aryl iodides has been used. A palladium-catalyzed variation is also known in which an aryl halide reacts with a terminal alkyne to give derivatives such as 434. In this variation, called the Sonogashira coupling,2 2 jhe reaction is catalyzed by... 

The Cadiot-Chodkiewcz and Glaser reactions are the synthetic reaction with acetylene type compounds. As the acetylene compounds easily form stable organo-copper compounds, these acetylenecopper compounds react directly with halides to afford the acetylene derivatives. This synthetic reaction is called the Castro reaction [43]. For example, as shown in eq. (22.22), aryl compounds having functional groups such as OMe, NO2 and COOH are able to condense with copper acetylides... 

The original Sonogashira reaction uses copper(l) iodide as a co-catalyst, which converts the alkyne in situ into a copper acetylide. In a subsequent transmeta-lation reaction, the copper is replaced by the palladium complex. The reaction mechanism, with respect to the catalytic cycle, largely corresponds to the Heck reaction.Besides the usual aryl and vinyl halides, i.e. bromides and iodides, trifluoromethanesulfonates (triflates) may be employed. The Sonogashira reaction is well-suited for the synthesis of unsymmetrical bis-2xy ethynes, e.g. 23, which can be prepared as outlined in the following scheme, in a one-pot reaction by applying the so-called sila-Sonogashira reaction ... 

There are a number of procedures for coupling of terminal alkynes with halides and sulfonates, a reaction that is known as the Sonogashira reaction.161 A combination of Pd(PPh3)4 and Cu(I) effects coupling of terminal alkynes with vinyl or aryl halides.162 The reaction can be carried out directly with the alkyne, using amines for deprotonation. The alkyne is presumably converted to the copper acetylide, and the halide reacts with Pd(0) by oxidative addition. Transfer of the acetylide group to Pd results in reductive elimination and formation of the observed product. 

ETHYL 4-METHYL-E-4,8-NON-ADIENOATE, 53, 116 Styrene, reaction with carbe-thoxycarbene, 50, 94 Suberoyl chloride, 54, 88 SUBSTITUTION OF ARYL HALIDES WITH COPPER(I) ACETYLIDES ... 

Terminal alkynes can be alkenylated by alkenyl triflates (bromides, iodides) and aryl-ated by aryl triflates (bromides, iodides). These reactions are called Cacchi coupling reactions if the reaction is catalyzed by Cu(I) and Pd(0) and if triflate reagents are employed, Sonogashira-Hagihara coupling reactions if the reaction is catalyzed by Cu(I) and Pd(0) and halides are employed as substrates, and Stephens-Castro coupling reactions for the more specialized case of the noncatalyzed coupling of copper acetylides with aryl halides. 

Copper(I) acetylides provide a useful route to the synthesis of a variety of organic acetylenic compounds and heterocycles, by reaction with aryl and other halides. A particularly important indirect use, where acetylides are probable intermediates, is the oxidative dimerization of acetylenes. A common procedure is to use the N, N,N, TV -tetramethylethylenediamine complex of CuCl in a solvent, or CuCl in pyridine-methanol, and oxygen as a reoxidant for Cu+ ... 

The Castro-Stephens coupling also involves the reaction of copper(I) acetylide with aryl halides to form diarylacetylenes. 

In this variation of the Pd-catalyzed cross-coupling reaction, which is closely related to the Stephen-Castro reaction, copper acetylides are reacted with (hetero)aryl halides or triflates to produce (hetero)aryl alkynes [111]. The Sonogashira reaction is comparable to the Suzuki or Stille reactions in its scope and functional group tolerability. 

The Castro-Stephens reaction is the cross coupling of a copper acetylide (1) and an aryl or vinyl halide (2) to give a disubstituted alkyne (3). The reaction, which shares some common elements with the Sonogashira, Cadiot-Chodkiewicz, Rosenmund-von Braun, Hay, and Glaser coupling reactions, was discovered by Stephens and Castro in the early 1960s and has found some applications in synthesis. " ... 

The coupling of terminal alkynes with aryl or alkenyl halides catalysed by palladium and a copper co-catalyst in a basic medium is known as the Sonogashira reaction. A Cu(I)-acetylide complex is formed in situ and transmetallates to the Pd(II) complex obtained after oxidative addition of the halide. Through a reductive elimination pathway the reaction delivers substituted alkynes as products. 

The mechanism of the Sonogashira cross-coupling follows the expected oxidative addition-reductive elimination pathway. However, the structure of the catalytically active species and the precise role of the Cul catalyst is unknown. The reaction commences with the generation of a coordinatively unsaturated Pd species from a Pd " complex by reduction with the alkyne substrate or with an added phosphine ligand. The Pd " then undergoes oxidative addition with the aryl or vinyl halide followed by transmetallation by the copper(l)-acetylide. Reductive elimination affords the coupled product and the regeneration of the catalyst completes the catalytic cycle. 

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