Boronic acids Pd-couplings

Sphinx Pharmaceuticals101 patented successful Stille (with a resin-bound organostannane) and Suzuki (with a supported boronic acid) cross-couplings. In the same patent, they also reported a coupling of a phenylacety-lene with a resin-bound bromide wherein Pd(OAc)2 was the catalyst (Scheme 50). 

Savarin, C. Srogl, J. Liebeskind, L. S. Thiol ester-boronic acid cross-coupling. Catalysis using alkylative activation of the Pd thiolate intermediate. Org. Lett. 2000, 2, 3229-3231. 

Vinylation can also be done by Pd-catalysed cross-coupling in which one component is used as a halide or triflate and the other as a stannane (Stille reaction) or boronic acid (Suzuki reaction). Entry 9, Table 11.3, is an example of the use of a vinylstannane with a haloindole. lndole-3-boronic acids, which can be prepared by mcrcuration/boration, undergo coupling with vinyl triflates (Entry 10). 

The Suzuki coupling of arylboronic acids and aryl halides has proven to be a useful method for preparing C-aryl indoles. The indole can be used either as the halide component or as the boronic acid. 6-Bromo and 7-bromoindolc were coupled with arylboronic acids using Pd(PPh3)4[5]. No protection of the indole NH was necessary. 4-Thallated indoles couple with aryl and vinyl boronic acides in the presence of Pd(OAc)j[6]. Stille coupling between an aryl stannane and a haloindole is another option (Entry 5, Table 14.3). 

A drawback of the Heck-type reaction is that it is not strictly regioselective [119]. Depending on the substituents >1% of 1,1-diarylation is observed. Soluble 2,5-dialkoxy-PPVs 63 or 2-phenyl-PPV PPPV 93, without 1,1-diarylated moieties, were synthesized by Heitz et al. in a Suzuki-type cross coupling of substituted 1,4-phenylenediboronic acids and fran5-l,2-dibromoethylene, catalyzed by Pd(0) compounds [120]. However, about 3% of biaryl defect structures are observed in the coupling products (M up to 12,000), resulting from homocoupling of boronic acid functions. 

One of the first highly efficient Pd-NHC based catalysts for the coupling between aryl chlorides and boronic acids was developed by Nolan and co-workers [100], The catalyst was prepared in situ from a mixture of IPr HCl/PdCdba) or IMes HCl/PdCOAc) and used Cs COj as base. A selection of results obtained using this protocol is shown in Scheme 6.25. These, or very similar, reaction conditions have been applied by other authors and give excellent results for more sterically hindered substrates [101-104]. 

The widespread use of aryl boronic acids or aryl boronates in various metal-catalysed C-C bond-forming reactions has created a substantial demand for these versatile nncleophiles. A general procedure for the preparation of these compounds, based on a NHC/Pd catalysed coupling, has been reported by Fiirtsner and co-workers nsing aryl chlorides and the tetraalkoxy diboron derivative 27 as conpling partners. Very good yields were obtained in several cases especially when electron poor aryls were employed [169]. Milder reaction conditions can be achieved when diazonium salts are used instead of chlorides [170] (Scheme 6.51). 

Scheme 9.11 General scheme for catalytic coupling of aryl boronic acids with diazonium ions using Pd-SIPr to make ketones...

Nickel can also be used in place of Pd in Suzuki-type couplings of boronic acids. The main advantage of nickel in this application is that it reacts more readily with aryl chlorides275 and methanesulfonates276 than do the Pd systems. These reactants may be more economical than iodides or triflates in large-scale syntheses. 

Recently, iodobenzoates anchored onto an ionic liquid support (6.4) were coupled to various aryl boronic acids (6.5) in aqueous media using Pd(OAc)2 as the catalyst at 80°C to give the coupled product 6.6 (Scheme 6.3). Compounds 6.6 were purified simply by washing the reaction mixture with ether, which removed the unreacted starting materials and the side product 6.7 without the need of chromatography. Compounds 6.6 were then cleaved from the ionic liquid support... 

Suzuki Coupling Reaction (IV). The coupling of boronic acid (II) with iodooxazole (III) was the first Suzuki reaction done on-scale at Bristol Myers Squibb. Our hope from the beginning was to isolate isopropyl ester of the coupled biaryl, so that issues related to removal of Pd can be separated from other quality issues of the coupling reaction as outlined in Scheme 3. 

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