Heck reaction, olefin arylation

Pd/P(t-Bu)., in the presence of Cy2NMe, is an unusually mild and versatile catalyst for Heck reactions of aryl chlorides (Tables 1 and 2) (as well as for room-temperature reactions of aryl bromides).21 22 23 Example A, the coupling of chlorobenzene with butyl methacrylate, illustrates the application of this method to the stereoselective synthesis of a trisubstituted olefin a-methylcinnamic acid derivatives are an important family of compounds that possess biological activity (e.g., hypolipidemic24 and antibiotic25) and serve as intermediates in the synthesis of pharmaceuticals (e.g., Sulindac, a non-steroidal anti-inflammatory drug26). Example B, the coupling of 4-chlorobenzonitrile with styrene, demonstrates that Pd/P(t-Bu). can catalyze the Heck reaction of activated aryl chlorides at room temperature. 

Palladacycles prepared by the addition of furancarbothioamide to a methanol solution of Li2PdCl4 at room temperature are soluble in hexane, chloroform, and moderately soluble in polar solvents DMF and DMSO [187]. These palladacycles are thermally stable, not sensitive to air or moisture, and can be applied effectively in the Heck reaction of aryl halides with terminal olefins and in the Suzuki reaction of aryl halides with arylboronic acids. These reactions were performed under aerobic conditions, leading to turnover numbers... 

In 1991 at the Central Research Laboratories of Hoechst AG we became interested in the palladium-catalyzed olefination (Heck reaction) of aryl halides and aryl diazonium compounds which is arguably one of the most powerfiil methods for the synthesis of substituted olefins. In collaboration with Herrmann and co-workers we have shown that active catalyst mixtures obtained by using in situ mixtures of Pd(II) salts and commercially available tri-o-tolylphosphine consist under the conditions of the Heck reaction primarily of cyclometaUated paUadacycles l... 

The palladium-catalysed Heck reaction of aryl or vinyl halides with olefins has been widely used in synthetic chemistry. The reaction works impressively well with a wide range of electron-deficient and neutral olefins, generally affording (1-arylatcd products. In the case of electron-rich olefins, however, a mixture of regioisomers is usually obtained under standard Heck reaction conditions (Figure 5.1).[1] This... 

Discussion and Conclusions. In the present work a large variety of Pd/C catalysts with different properties was studied as catalysts in Heck reactions of aryl bromides with olefins. The activity of the catalysts strongly depends on the Pd dispersion, the Pd oxidation state in the fresh catalyst, the water content (wet or dry catalysts) and the catalyst preparation conditions (in regnation method, pretreatment conditions). The effects are significant, i.e. Pd on the same activated carbon support is eitiier found to be a nearly inactive catalyst or, in the other extreme, a catalyst with the highest activity ever reported up to now for heterogeneous systems for the conversion of aryl bromides (Table 6.)... 

Verkade s P,N-ligand L13 also catalyzes the Heck reaction of aryl iodides. It was thus shown that the Buchwald-Hartwig amination could be appended to a Heck reaction using Pd/L13.47 The operation is performed by first adding an aryl iodide to the catalyst solution and an aminostyrene 10 at 60 °C. This gives an intermediate N-aryl aminostyrene 11 to which 2 equiv of a second aryl iodide is added at 110 °C. This gives a second aryiation of the aminostyrene as well as the Heck arylation of the olefin (12). 

Table 5.4), prepared from reduction of Pd(II) salts with potassium graphite. The results suggested that this catalyst was not very active. However, some years later Jikei and Kakimoto [73] prepared a more active Pd/CGr based on a smaller crystallite size. In 2002, Kohler et al. [74] studied a variety of Pd/C catalysts with different properhes (Pd dispersion, oxidation state, water content, conditions of catalysts preparation etc.) in the Heck reaction of aryl bromides with olefins (entry 4, Table 5.4). The authors pointed out the hypothesis that the leached Pd from the support is the active species and the solid Pd/C catalyst acts as a reservoir that delivers catalytically active Pd species into solution. All catalysts were obtained by wet impregnation (5% Pd loading). The Heck reaction can also be conducted in ionic liquids through promotion by microwave irradiation. Moreover the reaction of iodobenzene with methylacrylate in NMP was reported to be accelerated by ultrasound [75]. The ionic liquid containing the catalyst system was used five consecutive times with only a slight loss of activity (entry 5, Table 5.4) [76]. Perosa [77] reported the addition of a phase transfer catalyst to an ionic liquid as a method to accelerate the C-C coupling reaction. As far as we know, only by using ionic liquids has Pd on carbon been recovered and reused with success.

Another method that is widely used for C-C bond formation is the Heck coupling [3]. The arylation of olefinic double bonds is mostly catalyzed by palladium complexes in homogeneous solution. Important advantages of this reaction are the broad availability of arylbromides and chlorides and the tolerance of the reaction for a wide variety of functional groups. There were also developed heterogeneous Pd/C catalysts which exhibit high activity for the Heck reaction of aryl halides with olefins. The reaction conditions are 80 200 °C, solvents (NMP, DMF, tolueneAvater), base addition is necessary (NaOAc, amines, alkali carbonates). The reaction scheme can be described as follows (Eq. 8-22). 

Similar palladium-catalyzed cascade arylations also occur with acyclic alkenes, including a,p-unsaturated sulfones (Equation 19.153), sulfonamides, phosphine oxides, and phosphonate esters. In contrast, typical conjugated olefins, such as a, 3-unsaturated esters and enones almost exclusively react to form products from Heck reactions. Direct arylations have also been conducted with disubstituted alkynes containing a terminal arene and a large group, such as an aryl or ferf-butyl group (Equation 19.154). ... 

Miura and coworkers reported the first palladium catalyzed intermolecular carbonylative Heck reaction of aryl iodides and five membered olefins in the presence of carbon monoxide (Scheme 1.28) [99]. The expected 2,5-dihydrofuran product was not observed in the carbonylative coupling of 4-iodoanisole and 2,3-dihydrofuran as depicted in Scheme 1.28. Instead, isomerization of the double bond via reinsertion of the palladium(II) hydride followed by another ]S-hydride elimination formed the vinyl ether exclusively. 

Further developments of the regioselective Heck reaction between aryl sulfonates and electron rich olefins will be presented in the following chapter. 

Scheme 6.33 PdClj catalyzed Heck reaction of aryl halides with olefins in water.

Scheme 6.36 Heck reaction of aryl iodides with olefins using 52 in water.

Heck reaction, palladium-catalyzed cross-coupling reactions between organohalides or triflates with olefins (72JOC2320), can take place inter- or intra-molecularly. It is a powerful carbon-carbon bond forming reaction for the preparation of alkenyl- and aryl-substituted alkenes in which only a catalytic amount of a palladium(O) complex is required. 

An important virtue of the Heck reaction is that it can be applied with much success to essentially every type of olefin, although electron-deficient olefins are particularly well-suited. Moreover, the Heck reaction tolerates a variety of functional groups, and often does not require rigorous exclusion of oxygen and water.llb In fact, many alkene arylations proceed very efficiently in water.14... 

The Mizoroki-Heck reaction is a metal catalysed transformation that involves the reaction of a non-functionalised olefin with an aryl or alkenyl group to yield a more substituted aUcene [11,12]. The reaction mechanism is described as a sequence of oxidative addition of the catalytic active species to an aryl halide, coordination of the alkene and migratory insertion, P-hydride elimination, and final reductive elimination of the hydride, facilitated by a base, to regenerate the active species and complete the catalytic cycle (Scheme 6.5). 

Another methodology that is widely used for C-C bond formation is the Heck coupling (Heck, 1985 T.suji, 1995). The Heck reaction involves the palladium-catalysed arylation of olefinic double bonds (Eqn. (12)) and provides an alternative to Friedel-Crafts reactions for attaching carbon fragments to aromatic rings. 

Nanometer size Pd colloids in block copolymer micelles of polystyrene polyvinylpyridine as catalysts have been used is a novel way by Klingelhofer for Heck reaction of C-C coupling of aryl halides with olefins. 

Thus, [HRh(C0)(TPPTS)3]/H20/silica (TPPTS = sodium salt of tri(m-sulfophenyl)phopshine) catalyzes the hydroformylation of heavy and functionalized olefins,118-122 the selective hydrogenation of a,/3-unsaturated aldehydes,84 and the asymmetric hydrogenation of 2-(6 -methoxy-2 -naphthyl)acrylic add (a precursor of naproxen).123,124 More recently, this methodology was tested for the palladium-catalyzed Trost Tsuji (allylic substitution) and Heck (olefin arylation) reactions.125-127... 

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