Biaryl triflate aryl ester

The direct preparation of arylboronic esters from aryl halides or triflates now allows a one-pot, two-step procedure for the synthesis of unsymmetrical biaryls (Scheme 1-41) [147]. The synthesis of biaryls is readily carried out in the same flask when the first coupling of the triflate with diboron 82 is followed by the next reaction with another triflate. The synthesis of naturally occurring biflavanoids and the couphng of N-(phenylfluorenyl)amino carbonyl compounds to polymeric supports are reported [154]. 

Suzuki and Stille couplings. For coupling of aryl chlorides with arylboronic acids the catalytic system contains (CyjPjjPdClj, CsF in NMP. co-Arylalkanoic acids are prepared by coupling of aryl halides with carboxylic esters bearing a 9-BBN substituent at the other terminus, and saponification. A biaryl synthesis from two different aryl halides is accomplished with in situ boronate formation which depends on the (dppfjPdClj catalyst. For access to aryl boronates either the coupling of aryl triflates with bis(pinacolato)diboron" or that of aryl iodides with pinacolborane may be employed. 

The cross-coupling reactions of various aryl halides and triflates with vinyl- or arylboronic acids and esters (Suzuki cross-coupling reaction) was also carried out in water in the presence of tetrabutylammonium bromide and a base such as Na2C03, using a phosphine-free palladium catalyst to give biaryl derivatives [Eq. 18)1 [108,109]. More recently, Casalnuovo [101] and Gen t [102,110] have performed this reaction using water-soluble palladium catalysts PdCla (tppms)2 and Pd(OAc)2/tppts in water/acetonitrile. 

Several new synthetic methods of arylboronates, such as pinacol ester, have been developed. A convenient preparative method of arylboronates 4 is Pd-catalyzed cross-coupling of aryl halides and triflates with bis(pinacolato)diboron (3), which can be handled easily in air. The best ligand for the coupling is DPPF [12]. In addition, one-pot biaryl synthesis can be carried out most conveniently without isolation of the boronate 4 to provide 5 [13], Ligandless Pd(OAc)2 is active for... 

The Pd-catalyzed cross-coupling reaction of the pinacol ester of diboronic acid with aryl halides and triflates gives a direct procedure for various functionalized arylboronic esters (Table 6), which are useful for highly efficient and selective carbon-carbon bond formation by Pd catalysts (Sect. III.2.2). The combination of PdCl2(dppf) with KOAc (and dppf) is effective in the carbon-boron bond formation. KOAc is essential not only to accelerate the reaction but also to prevent the formation of biaryl by-products. 

Ready availability of arylboronic esters from aryl halides or triflates (Eqs. 13 and 14) now offers a one-pot, two-step procedure for synthesizing unsymmetrical biaryls. The cross-coupling reaction of bis(pinaco-lato)diboron with triflate in dioxane is followed by a subsequent coupling with another triflate in the presence of K3PO4 to furnish an unsymmetrical biaryl from two triflates (Eq. 63). The synthesis from two different... 

The Suzuki coupling was developed by Professor Akira Suzuki of Hokkaido University. The Suzuki coupling uses a boron compound (R-BYj) and an alkenyl, aryl, or alkynyl halide or triflate (RX) as the carbon sources, with a palladium salt as the catalyst. Bromides and iodides are the most commonly used halides chlorides are less reactive. Alkyl halides can sometimes be used but are subject to elimination. A base is also required. The boron compound can be a borane (R jB), a borate ester (R B(OR)2), or a boric acid (R B(OH)2), where R is alkyl, alkenyl, or aryl. The general reaction is shown in the following scheme, where X is halide or triflate and Y is alkyl, alkoxyl, or OH. A list of the types of components that can be used is given in Table 24.1. This reaction is one of the principal methods now used to prepare biaryls. 

In none of our extensive test reactions of aryl halides with benzoic acids carried out in the presence of diverse palladium catalysts, we were able to detect even traces of the unsymmetrical biaryl. Instead, we observed mostly homocoupling and dehalogenation products in some cases along with phenol esters. The conversion of aryl triflates with potassium benzoates did not lead to the desired biaryls, either, but to the phenol esters instead. 

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