Suzuki-Heck reaction

A cascade of Suzuki-Heck reactions has been used for this purpose. Optimal yields were obtained by a... 

Several random poly(arylene-vinylene)s have been obtained from benzo[2,l,3]thiadiazole and 9,9-dialkylfluorene or 1,4-dialkoxybenzene moieties by a Suzuki-Heck reaction [149]. The monomers used are shown in Figure 3.19. 

Grisorio, R., et al. 2005. A novel synthetic protocol for poly(fluorenylenevinylene)s A cascade Suzuki-Heck reaction. Tetr Lett 46 2555. 

Domino Stille-Heck and Suzuki-Heck Reactions... 

To date a number of reactions have been carried out in ionic liquids [for examples, see Dell Anna et al. J Chem Soc, Chem Commun 434 2002 Nara, Harjani and Salunkhe Tetrahedron Lett 43 1127 2002 Semeril et al. J Chem Soc Chem Commun 146 2002 Buijsman, van Vuuren and Sterrenburg Org Lett 3 3785 2007]. These include Diels-Alder reactions, transition-metal mediated catalysis, e.g. Heck and Suzuki coupling reactions, and olefin metathesis reactions. An example of ionic liquid acceleration of reactions carried out on solid phase is given by Revell and Ganesan [Org Lett 4 3071 2002]. 

Palladium-catalyzed carbon-carbon bond forming reactions like the Suzuki reac-tion as well as the Heck reaction and the Stille reaction, have in recent years gained increased importance in synthetic organic chemistry. In case of the Suzuki reaction, an organoboron compound—usually a boronic acid—is reacted with an aryl (or alkenyl, or alkynyl) halide in the presence of a palladium catalyst. 

Many types of functional groups are tolerated in a Suzuki reaction, and the yields are often good to very good. The presence of a base, e.g. sodium hydroxide or sodium/potassium carbonate, is essential for this reaction. The base is likely to be involved in more than one step of the catalytic cycle, at least in the transmetal-lation step. Proper choice of the base is important in order to obtain good results." In contrast to the Heck reaction and the Stille reaction, the Suzuki reaction does not work under neutral conditions. 

The Suzuki-Miyaura and Heck reactions were recently also reported under conventional heating conditions [39,40]. A variety of 3-chloro pyrazinones were reacted with commercially available (hetero)aryl boronic acids or the alkyl-9-BBN derivatives under either classical or slightly modified Suzuki conditions to generate the 3-substituted analogues, however having the drawback of longer reaction times of up to 12 h of reflux. 

Scheme 16 Suzuki-Miyaura and Heck reactions at the C-5 position under conventional heating conditions...

To mention a few synthetic appHcations of trialkylsilanols, trimethylsilanol 4 adds readily to 2-chloroacrylonitrile in diethyl ether in the presence of triethylamine as triethylammonium trimethylsilanolate followed by ehmination of triethylamine hydrochloride to give 99 [32] (cf. discussion of the strongly nucleophihc properties of ammonium trimethylsilanolate 155 in Section 4.2.1). The stable potassium trimethylsilanolate 97 has also been used for the saponification of esters (Section 4.7). Dimethylphenylsilanol 100 adds readily to a,y9-unsaturated carbonyl compounds such as methyl vinyl ketone 764 in the presence of Pd(OAc)2 in a Heck-Suzuki-type reaction to give the sihcon-free /9-phenylmethylvinylketone 101 [33]. 

Under all the conditions studied, addition of bare Si02-SH to Heck or Suzuki coupling reactions using a variety of bases, aryl halides and solvents resulted in complete cessation of the catalytic activity (35). These results suggest that catalysis with this precatalyst is also associated with labile palladium species that... 

Substrate reactivity was as expected (Arl > ArBr ArCl). In contrast to the Suzuki cross-coupling, however, Cu and Ru clusters were not active in the Heck reactions, and the activity of Cu/Pd clusters was lower than that of pure Pd clusters. Note the higher activity of Pd clusters prepared in situ (row F) compared to pre-prepared clusters (rows B and G). This increased activity tallies with our findings for Suzuki cross-coupling (7). After reaction, palladium black was observed in all the vials in rows B and G, but not in row F. 

Stevens, P.D., Li, G.F., Fan, J.D., Yen, M. and Gao, Y. (2005) Recycling of homogeneous Pd catalysts using superparamagnetic nanoparticles as novel soluble supports for Suzuki, Heck, and Sonogashira cross-coupling reactions. Chemical Communications (35), 4435-4437. 

Baruwati, B., Gum, D. and Manorama, S.V. (2007) Pd on surface-modified NiFe204 nanopartides a magnetically recoverable catalyst for Suzuki and Heck reactions. Organic Letters, 9 (26), 5377—5380. 

Supported ultra small palladium on magnetic nanopartides used as catalysts for Suzuki cross-coupling and Heck reactions. Advanced Synthesis and Catalysis, 349, 1917-1922. 

Transition metal-catalyzed transformations are of major importance in synthetic organic chemistry [1], This reflects also the increasing number of domino processes starting with such a reaction. In particular, Pd-catalyzed domino transformations have seen an astounding development over the past years with the Heck reaction [2] - the Pd-catalyzed transformation of aryl halides or triflates as well as of alkenyl halides or triflates with alkenes or alkynes - being used most often. This has been combined with another Heck reaction or a cross-coupling reaction [3] such as Suzuki, Stille, and Sonogashira reactions. Moreover, several examples have been published with a Tsuji-Trost reaction [lb, 4], a carbonylation, a pericyclic or an aldol reaction as the second step. 

Cossy and coworkers described a precise combination of a Heck and a Suzuki-Miyama reaction using ynamides and boronic acids to give indole and 7-azaindole derivatives [46]. Thus, reaction of 6/1-73 with 6/1-74 using Pd(OAc)2 as catalyst led to 6/1-75 in 68% yield (Scheme 6/1.18). 

Interestingly, not only the combination of a Heck with a Suzuki reaction (as described above) but also a Suzuki with a Heck reaction is possible. However, a fine tuning of the reactivity of the different functionalities is necessary. 

Shibasaki and coworkers [87] described the first enantioselective combination of this type in their synthesis of halenaquinone (6/1-162) (Scheme 6/1.43). The key step is an intermolecular Suzuki reaction of 6/1-159 and 6/1-160, followed by an enantioselective Heck reaction in the presence of (S)-BINAP to give 6/1-161. The ee-value was good, but the yield was low. 

Using Pd-mediated cross-coupling reactions, such as Suzuki, Heck, and Sonoga-shira- Hagihara reaction, researchers efficiently constructed a library of 151 coumarin derivatives from eight 3-bromocoumarins cross-coupled with ten aryl/heteroaryl boronic acids, ten alkenes, and ten alkynes (Fig. 4). 

Stewart and Whiting have reported a useful application of sequential Heck and Suzuki coupling reactions of a vinylborane pinacol ester with palladium catalysis to generate a tetraene (equation 147)260. 

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