Vinyl halides coupling reaction with alkenes

With vinyl halides, coupling is stereospecific. The reaction forms trans alkenes. 

Mizorokf and Heck reported independently in the early 1970s the first palladium-mediated coupling of an aryl or vinyl halide or triflate with an alkene. This reaction is generally referred to as the Heck reaction. From the first reports on asymmetric intramolecular Heck reactions by Overman and Shibasakf in 1989 the asymmetric Heck reaction has emerged as a reliable method for the stereoselective formation of tertiary and quaternary stereogenic centers by C-C bond formation in polyfunctionalized molecules. ... 

The transformation that has come to be known as the Heck reaction is broadly defined as the palladium(O)-mediated coupling of an aryl or vinyl halide or triflate with an alkene. The basic mechanism for the Heck reaction of aryl halides or trifiates (as outlined in more detail in the Key Chemistry), involves initial oxidative addition of the chiral palladium(O) catalyst to afford a a-arylpalladium(II) complex. Coordination of an alkene and subsequent carbon-carbon bond formation by syn insertion provide a a-alkylpalladium(II) intermediate, which readily undergoes P-hydride elimination to release the alkene product. Finally, the hydridopalladium(II) complex has to be converted into the active palladium(O) catalyst to complete the catalytic cycle. 

Mizoroki and Heck first reported their independent discoveries of palladium(0)-catalysed vinylations of aryl halides over 30 years ago [1], This transformation, now known as the Mizoroki-Heck reaction, can be broadly defined as the palladium(0)-mediated coupling of an aryl or vinyl halide (or triflate) with an alkene. The potential utility of this transformation in complex molecule synthesis was largely unappreciated for a number of years however, its application for the construction of complex organic molecules, including natural products, has flourished recently [2],... 

Similar cross-coupling procedures have been used to prepare styrenes by the reaction of metalated aromatics with vinyl halides/triflates or, conversely, metalated alkenes with aromatic halides/triflates in the presence ofPd(Ph3P)4 (eq 6). Typically, ArCl are poor substrates in Pd(PPh3)4-catalyzed coupling reactions. However, by forming the chromium tricarbonyl complex of the aryl chloride, a facile coupling reaction with vinyl-stannanes can be achieved (eq 7). ... 

Reaction of organic halides with alkenes catalyzed by palladium compounds (Heck-type reaction) is known to be a useful method for carbon-carbon bond formation at unsubstituted vinyl positions. The first report on the application of microwave methodology to this type of reaction was published by Hallberg et al. in 1996 [86], Recently, the palladium catalyzed Heck coupling reaction induced by microwave irradiation was reported under solventless liquid-liquid phase-transfer catalytic conditions in the presence of potassium carbonate and a small amount of [Pd(PPh3)2Cl2]-TBAB as a catalyst [87]. The arylation of alkenes with aryl iodides proceeded smoothly to afford exclusively trans product in high yields (86-93%) (Eq. 61). 

Alkenyl trifluoromethanesulphonates (enol triflates) undergo Heck coupling with alkenes efficiently (equation 123)209a 215. This reaction is a useful variation of the use of vinyl halides not only because they are easy to prepare from the corresponding carbonyl compounds, but also because yields are good, and the stereochemistry of the triflate is largely maintained. 

The consecutive reaction of vinyl halides and alkenes with activated methylene systems [42] in the presence of a palladium catalyst and phase-transfer catalyst results from the addition of the methylene carbanion with the initially formed Heck product (Scheme 6.31) an intramolecular version of the reaction leads to the formation of bicycloalk-l-enes (Scheme 6.31) [42], The analogous combined coupling reaction of iodoarenes and activated methylene compounds with non-conjugated dienes under similar conditions forms the monoalkene (Scheme 6.31) [43]. 

Heck-, Suzuki- and Stille-type Couplings - The Heck reaction, palladium-catalysed coupling of aryl or vinyl halides with alkenes or alkynes, is an extremely useful synthetic method. Only recently have Heck reactions been performed in aqueous media, probably due to the perception that water must be carefully... 

Although the coupling of aiyl halides with alkenes (commonly referred to as the Heck reaction) was first reported more than 25 years ago [ 1 ], only in the past decade has its enormous synthetic potential been realized [2], Within that time, the reaction has been extended to many substrates, including vinyl iodides and bromides and enol triflates. Moreover, the intramolecular variant has become one of the more important reactions for the formation of carbon-carbon bonds and has emerged as a premier method for the construction of quaternary carbon centers. The ability of intramolecular Heck reactions to reliably fashion carbon-carbon bonds in polyfunctional molecules has led to wide application of this reaction at the strategy level for the synthesis of complex natural products [2g],... 

Cross-coupling reactions of alkenylsilicates 114 with aryl or vinyl halides or triflates are catalyzed by a palladium complex to give the corresponding alkenes (equation 92)173. 

The reaction sequence in the vinylation of aromatic halides and vinyl halides, i.e. the Heck reaction, is oxidative addition of the alkyl halide to a zerovalent palladium complex, then insertion of an alkene and completed by /3-hydride elimination and HX elimination. Initially though, C-H activation of a C-H alkene bond had also been taken into consideration. Although the Heck reaction reduces the formation of salt by-products by half compared with cross-coupling reactions, salts are still formed in stoichiometric amounts. Further reduction of salt production by a proper choice of aryl precursors has been reported (Chapter III.2.1) [1]. In these examples aromatic carboxylic anhydrides were used instead of halides and the co-produced acid can be recycled and one molecule of carbon monoxide is sacrificed. Catalytic activation of aromatic C-H bonds and subsequent insertion of alkenes leads to new C-C bond formation without production of halide salt byproducts, as shown in Scheme 1. When the hydroarylation reaction is performed with alkynes one obtains arylalkenes, the products of the Heck reaction, which now are synthesized without the co-production of salts. No reoxidation of the metal is required, because palladium(II) is regenerated. 

Lipshutz and colleagues presented recently palladium-catalyzed direct coupling reactions of alkyl iodides and vinyl bromides or iodides catalyzed by 1 mol% Pd(amphos)Cl2 in the presence of zinc and TMEDA in a biphasic aqueous/poly-(ethylene glycol tocopheryl sebacate) reaction medium [198], Internal olefins were obtained in 51-95% yield. For aryl-substituted (Aj-vinyl bromides, retention of double bond geometry was observed, while different degrees of isomerization occurred for (Z)-isomers, which may indicate the intervention of a radical addition process in the course of the coupling process. Alkyl-substituted (Z)-vinyl halides were transformed in contrast with retention of alkene geometry. Aryl halides also reacted [199],... 

The cross-coupling reaction of vinyl halides with Grignard reagents to provide corresponding alkenes was also promoted by a ruthenium catalyst such as RuCl2(PPh3)3 [12]. 

The Heck reaction is the palladium-catalyzed coupling of an aryl or vinyl halide with an alkene to give a new C—C bond at the less substituted end of the alkene, usually with trans stereochemistry. 

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