Bromides Heck reaction

Beller et al. have shown for the first time that palladium colloids are effective catalysts for the olefination of aryl bromides (Heck reaction). Reetz et al. have studied Suzuki and Heck reactions catalyzed by preformed palladium clusters and palladium/nickel bimetallic clusters and further progress was achieved by Reetz and Lohmert using propylene carbonate stabilized nanostructured palladium clusters as catalysts in Heck reactions. In addition, the use of nanostructured titanium clusters in McMurry-type coupling reactions has been demonstrated by Reetz et... 

The original Sonogashira reaction uses copper(l) iodide as a co-catalyst, which converts the alkyne in situ into a copper acetylide. In a subsequent transmeta-lation reaction, the copper is replaced by the palladium complex. The reaction mechanism, with respect to the catalytic cycle, largely corresponds to the Heck reaction.Besides the usual aryl and vinyl halides, i.e. bromides and iodides, trifluoromethanesulfonates (triflates) may be employed. The Sonogashira reaction is well-suited for the synthesis of unsymmetrical bis-2xy ethynes, e.g. 23, which can be prepared as outlined in the following scheme, in a one-pot reaction by applying the so-called sila-Sonogashira reaction ... 

The use of ionic liquids as reaction media for the palladium-catalyzed Heck reaction was first described by Kaufmann et ak, in 1996 [85]. Treatment of bromoben-zene with butyl acrylate to provide butyl trans-cinnamate succeeded in high yield in molten tetraallcylammonium and tetraallcylphosphonium bromide salts, without addition of phosphine ligands (Scheme 5.2-16). 

The use of imidazolium-based ionic liquids in Pd-catalyzed Heck reactions always carries with it the possibility of in situ formation of Pd-carbene complexes (for more details see Section 5.2.2.3). The formation of these under the conditions of the Heck reaction was confirmed by investigations by Xiao et al. [30], who described a significantly enhanced reactivity of the Heck reaction in [BMIM]Br in relation to the same reaction in [BMIM][Bp4] and explained this difference by the fact that formation of Pd-carbene complexes was observed only in the bromide melt. 

Palladium(II) complexes provide convenient access into this class of catalysts. Some examples of complexes which have been found to be successful catalysts are shown in Scheme 11. They were able to get reasonable turnover numbers in the Heck reaction of aryl bromides and even aryl chlorides [22,190-195]. Mechanistic studies concentrated on the Heck reaction [195] or separated steps like the oxidative addition and reductive elimination [196-199]. Computational studies by DFT calculations indicated that the mechanism for NHC complexes is most likely the same as that for phosphine ligands [169], but also in this case there is a need for more data before a definitive answer can be given on the mechanism. 

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. 

Microwave-assisted Heck reaction of (hetero)aryl bromides with N,N-dimethyl-2-[(2-phenylvinyl)oxy]ethanamine, using Herrmann s palladacycle as a precatalyst, yielded the corresponding /3-(hetero)arylated Heck products in a good EjZ selectivity (Scheme 79) [90]. The a/yd-regioselectivity can be explained by the chelation control in the insertion step. This selectivity is better than 10/90 when no severe steric hindrance is introduced in the (hetero)aryl bromides. The process does not require an inert atmosphere. There is evidence that a Pd(0)/Pd(II)- and not Pd(II)/Pd(IV)-based catalytic cycle is involved. Similarly, other j6-amino-substituted vinyl ethers such as... 

The Heck reaction has also been performed intramolecularly. An intramolecular version that couples vinyl bromide with a C=C unit leads to cyclic com-... 

Regarding bis-NHC chelating ligands, several structures that differ in the motifs used for the enlargement of the tether have been proposed as catalysts for the Mizoroki-Heck reaction. They range from non-functionalised aliphatic chains [23-25] to phenyl [26], biphenyl [27], binaphthyls [28] and to chains containing additional coordination positions like ethers [29], amines [30], and pyridines in an evolution towards pincer complexes [31-35], In most cases, the activity of aryl bromides in Mizoroki-Heck transformations was demonstrated to be from moderate to high, while the activation of chlorides was non-existent or poor (Scheme 6.7). 

Heck reactions can be carried out in the absence of phosphine ligands.141 These conditions usually involve Pd(OAc)2 as a catalyst, along with a base and a phase transfer salt such as tetra-n-butylammonium bromide. These conditions were originally applied to stereospecific coupling of vinyl iodides with ethyl acrylate and methyl vinyl ketone. 

The Heck reaction has been applied to synthesis of intermediates and in multistage syntheses. Some examples are given in Scheme 8.9. Entries 1 and 2 illustrate both the (3-regioselectivity and selectivity for aryl iodides over bromides. Entries 3 and 4 show conditions that proved favorable for cyclohexene. These examples also indicate preferential syn Pd-H elimination, since this accounts for formation of the 3-substituted cyclohexene as the major product. 

Palladium-catalyzed carbon-carbon cross-coupling reactions are among the best studied reactions in recent decades since their discovery [102, 127-130], These processes involve molecular Pd complexes, and also palladium salts and ligand-free approaches, where palladium(O) species act as catalytically active species [131-135]. For example, the Heck reaction with aryl iodides or bromides is promoted by a plethora of Pd(II) and Pd(0) sources [128, 130], At least in the case of ligand-free palladium sources, the involvement of soluble Pd NPs as a reservoir for catalytically active species seems very plausible [136-138], Noteworthy, it is generally accepted that the true catalyst in the reactions catalyzed by Pd(0) NPs is probably molecular zerovalent species detached from the NP surface that enter the main catalytic cycle and subsequently agglomerate as N Ps or even as bulk metal. 

Ahn, Kim and coworkers, in the preparation of 4-alkylidene-3-arylmethylpyr-rolidines 6/1-77, used a Heck reaction of the vinyl bromide 6/1-76 in the presence of an arylboronic acid [47] (Scheme 6/1.19). ft has been assumed that the interme-... 

A tandem palladium-catalysed ort/io-alkylation/intramolecular Heck reaction coupling sequence was used effectively to access in fair yields the tetrahydro 1-benzoxepines 67 from the iodoaryl precursor 66 and the appropriate alkyl bromide. The norbornene plays a relay role in the proposed reaction cycle <06JOC4937>... 

A perhaps more exotic substrate for the Heck reaction is 1,2-cyclohexanedione [25], The reactivity of this molecule under Heck coupling conditions can probably be attributed to its resonance enol form. This reaction is attractive, because the literature contains relatively few examples of the preparation of 3-aryl-l,2-cyclohexane-diones. Yields varied from good to modest when classic heating and electron-rich aryl bromides were used, and reaction times typically ranged from 16 to 48 h. Similar yields were obtained under continuous microwave irradiation with a single-mode microwave reactor for 10 min at 40-50 W (Eq. 11.10) [25],... 

Traditional Heck arylation of the corresponding ethyl vinyl ether afforded high yields with most of the aryl bromides investigated (Eq. 11.11). Under continuous singlemode microwave treatment the transformations were complete within 10-12 min [25], Heck reactions without solvent in a domestic microwave oven have been examined by Diaz-Ortiz [26]. The reactions were conducted in closed vessels with reported temperatures of 150 °C. A study was performed in which reactions performed with microwave irradiation were compared with oil-bath-heated reactions with identical reaction times and temperatures. The isolated yields tended to substantially favor the microwave-heated reactions (Eq. 11.12). 

Equation 11.12 Heck reaction with phenyl bromide. ... 

Triflates also undergo Heck reactions and Gribble and Conway reported several such couplings of l-(phenylsulfonyl)indol-3-yl triflate (34) to afford 3-vinylindoles 224 [183]. Cyclohexene, allyl bromide, and methyl propiolate failed to react under these conditions, but triphenylphosphine afforded 225 in excellent yield (93%), and divinyl carbinol yielded the rearranged enal 226 (82% yield). 

Several intramolecular Heck reactions involve aryl halides cyclizing onto indole rings. Grigg first described the simple Heck cyclizations of 254 and 255 [270], and this was followed by similar Heck reactions reported by Kozikowski and Ma on the bromide corresponding to 254 and the IV-benzylindole 256 [271,272]. These investigators also observed cyclization to the C-3 position in a Heck reaction of indole 257, and they prepared a series of peripheral-type benzodiazepine receptors 258 using this chemistry. For example, 258 (n = 3, R = n-Pr) is obtained in 81% yield. 

While the intramolecular Heck reaction has been widely used to synthesize indoles and benzofurans, not many applications have been found in the preparation of benzothiophenes because of the thiophilicity of the Pd(II) species. Pleixats and coworkers treated iodophenylsulfide 151, obtained from o-iodoaniline and crotyl bromide in two steps, with... 

Ohta s group coupled aryl bromides such as 2-bromonitrobenzene with benzofuran [85]. The heteroaryl Heck reaction took place at the more electron-rich C(2) position of benzofuran. They later described the heteroaryl Heck reactions of chloropyrazines with both furan and benzofuran [86],... 

The catalytic Pd complex and the aryl bromide together suggest the first step is oxidative addition of Pd(0) to the C5-Br bond. (The reduction of Pd(II) to Pd(0) can occur by coordination to the amine, p-hydride elimination to give a Pd(II)-H complex and an iminium ion, and deprotonation of Pd(IE)-H to give Pd(0).) The C10-C11 k bond can then insert into the C5-Pd bond to give the C5-C10 bond. P-Hydride elimination then gives the Cl 1-C12 n bond and a Pd(II)-H, which is deprotonated by the base to regenerate Pd(0). The overall reaction is a Heck reaction. 

The Heck reaction on polymer-bound iodoarenes is assisted by the addition of a catalytic amount of tetra-n-butylammonium bromide and has been employed in the synthesis of 4-carboxycinnamic esters and amides [33], and 4-aminosulphonyl-cinnamic esters [34], It has also been reported that the presence of an equimolar equivalent of benzyltriethylammonium chloride aids the Pd(II)-mediated reaction of A -acyl-2-iodoanilines with vinylidene carbonate, which leads to A -acyl-2-hydroxy-indolines providing a convenient route to the indoles (80-90%) [35], The catalysed reaction of 2-hydroxy- and 2-tosylaminoiodobenzene with 1,2-dienes produces 1,2-dihydrobenzofurans and 1,2-dihydroindoles, respectively [36]. 

The atom economy of the cross-coupling reaction and the Heck reaction for making styrene from bromobenzene and vinyl bromide (cross), and bromobenzene and ethene (Heck) respectively are in favour of the Heck reaction, as that produces only one equivalent of salt. 

In the Mizoroki-Heck reaction aryl bromides and activated aryl chlorides could be employed with moderate turnovers. This holds true for both the complexes of monodentate such as 60 as well as the complexes of chelating ones... 

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