In the Heck reaction

Use of Qi-acetamidoacrylate esters in the Heck reaction allows for the introduction of a dehydroalanine side-chain. The dehydrotryptophans can be reduced catalytically, and this reduction can be done enantioselectively[17]. 

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. 

Recent Developments and New Perspectives In The Heck Reaction," Cabri. W. Candiani, T. Accts. Chem. Res., 1995, 28, 2... 

To assess the utility of this resin, we chose to employ it in the evaluation of the heterogeneity of a commercial polymer-entrapped Pd(OAc)2 precatalyst, Pd-EnCat, also sold by Reaxa. This precatalyst was designed with the goal of providing a heterogeneous catalyst that would allow simple removal of palladium from reactions (24-26). PVPy and QTU were first used as poisons in the Heck reaction of iodobenzene and n-butyl acrylate in DMF using PdfC as the palladium... 

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. 

Zheng et al. treated potassium [l,2,4]diazaphospholides, obtained from the reaction of 3,5-disubstituted-[l,2,4]diazaphospholes with metallic potassium in THF, with [Cp RuCl]4 to afford [(T75-dp)RuCp ] type pseudoruthenocene complex (106) (Scheme 33). Sandwich structure with almost eclipsed orientation of two n-bonded ligands has been confirmed by X-ray crystal structure determination [110], Catalytic application of [(rf-dp)RuCp ] complexes in the Heck reaction has also been investigated [111]. 

The selectivity in the Heck reaction of allylic alcohol 111 is interesting, and the factors that lead to the observed preference for (3-hydride elimination toward nitrogen in this system are unclear, although a combination of steric effects and stereoelectronic factors (i.e., alignment of C-H and C-Pd bonds, nN a c H interactions) is likely involved. Examination of related examples from the literature (Scheme 4.20) reveals no clear trend. Rawal and Michoud examined substrate 115, which lacks the influence of both the amine and hydroxyl substituents and also seems to favor (3-hydride elimination within the six-membered ring over formation of the exocyclic olefin under standard Heck conditions [18a]. However, under... 

In the Heck reactions discussed above it was essential to use polar aprotic solvents such as acetonitrile or DMF if high regioselectivity was to be achieved. In other Heck couplings the use of water as a solvent has recently gained attention. The advantages of water compared with standard organic solvents are many - it is, for example, cheap and nontoxic - but its usefulness extends only over a number of well-defined applications, partly because of problems with the solubility of the reactants and catalysts. The development of aqueous catalytic systems is, consequently, an important field [21]. 

Suitably positioned vinyl halide can undergo Heck-type intramolecular coupling to generate dienes (equations 124 and 125)216,217. When one of the reacting partners in the Heck reaction is a diene, trienes are obtained (equation 126)218. Heck coupling of ally lie alcohols and alkenyl iodides has been employed for the synthesis of vitamin A and related compounds (equation 127)219,220. A similar double Heck reaction on a Cio-diiodide with a Cis-allylic alcohol leads to -carotene as a mixture of isomers (equation 128)209e. 

While the transmetalation step is often the rate-determining step for Pd-catalyzed reactions with organometallics, the oxidative addition step is often the rate-determining step in the Heck reactions, although olefin insertion can be rate-limiting in some cases — this is why the Heck reactions of tri- and tetra-substituted olefins sometimes proceed slower than those of di-substituted and terminal olefins. 

In fact, a mechanism for this reaction can be drawn that does not involve Pd at all, but let s assume that Pd is required for it to proceed. Cl- must be nucleophilic. It can add to Cl of the alkyne if the alkyne is activated by coordination to Pd(II). (Compare Hg-catalyzed addition of water to alkynes.) Addition of Cl- to an alkyne-Pd(II) complex gives a o-bound Pd(II) complex. Coordination and insertion of acrolein into the C2-Pd bond gives a new a-bound Pd(II) complex. In the Heck reaction, this complex would undergo P-hydride elimination, but in this case the Pd enolate simply is protonated to give the enol of the saturated aldehyde. 

Since the hydride based isomerisation is such a facile reaction it often occurs even when it is not desired. Thus, if hydrides play a role in the catalytic cycle and alkenes are present or formed during the reaction, isomerisation may represent an undesired side reaction. For instance in the Heck reaction (see Chapter 13) an alkene and a palladium hydride are formed and thus, if the alkene can isomerise, this may happen at the end of the cycle as a secondary process. 

The use of cyclic alkenes as substrates or the preparation of cyclic structures in the Heck reaction allows an asymmetric variation of the Heck reaction. An example of an intermolecular process is the addition of arenes to 1,2-dihydro furan using BINAP as the ligand, reported by Hayashi [23], Since the addition of palladium-aryl occurs in a syn fashion to a cyclic compound, the 13-hydride elimination cannot take place at the carbon that carries the phenyl group just added (carbon 1), and therefore it takes place at the carbon atom at the other side of palladium (carbon 3). The normal Heck products would not be chiral because an alkene is formed at the position where the aryl group is added. A side-reaction that occurs is the isomerisation of the alkene. Figure 13.20 illustrates this, omitting catalyst details and isomerisation products. 

An instructive example for a positive dendritic effect was reported by Reetz et al. [71]. The authors described a poly(propylenimine) dendrimer, with diphenylphos-phine groups in the periphery (Fig. 7.20). A dendritic [PdMe2]-complex was tested as an efficient catalyst in the Heck reaction of bromobenzene and styrene to yield stilbene (85-90% conversion). The separation technique originally investigated for... 

Polystyrene-bound secondary aliphatic amines and /V-alkyl amino acids can be ally-lated by treatment with a diene and an aryl iodide or bromide in the presence of palla-dium(II) acetate (Entry 14, Table 10.3). As the diene, 1,3-, 1,4-, and 1,5-dienes can be used, and, besides aryl halides, heteroaryl bromides have also been successfully used [63], This remarkable reaction is likely to proceed via the formation of an aryl palladium complex, with subsequent insertion of an alkene into the C-Pd bond. The resulting organopalladium compound does not undergo ( -elimination (as in the Heck reaction), but isomerizes to an allyl palladium complex, which reacts with the amine to give the observed allyl amines. 

Cabri, W. and Candiani, I., Recent developments and new perspectives in the Heck reaction, Acc. Chem. Res.,... 

Use of the allylsilanes as the alkene components in the Heck reaction is illustrated in the palladium catalyzed y-allylation of organic halides or triflate or acetate176. The... 

A dramatic increase of the TON is observed in the Heck reaction under high pressure. A value of 770 000 was achieved in the coupling reaction of iodobenzene with 2,3-dihydropyrrole under 8kbar at 100 °C. High pressure seems to stabilize the catalyst [12]. 

Alkylpalladium complexes generated by oxidative addition of Pd(0) to alkyl halides with a /3 hydrogen can undergo /3-elimination to yield an alkene and a Pd-hydrido complex (as in the Heck reaction Scheme8.7). Nevertheless, this process is relatively slow compared with transmetalations and reductive eliminations, and simple alkyl halides or tosylates with /3 hydrogen can be cross-coupled with carbon nucleophiles under optimized conditions if the nucleophile is sufficiently reactive [9, 73-75] (Scheme8.6). 

Chandrasekhar S, Narsihmulu C, Sultana SS et al (2002) Poly(ethylene glycol) (PEG) as a reusable solvent medium for organic synthesis. Application in the Heck reaction. Org Lett 4(25) 439)M401... 

Palladacycles [17] have been established as important class of catalysts, an unusual phosphine-free sulfur containing catalyst was introduced by Zim [18] et al. A phosphinite based palladacycle [19] proved to be very efficient in Suzuki coupling reactions. An N,P-Ligand type was synthesized by Kocovsky [20] et al. Tridentate pincer ligands [21] have been proved use-fill in the Heck reaction. Recent developments regarding Heck (22] and Suzuki [23] reactions have been reviewed by Fu and Littke. A new catalyst especially suitable for Heck couplings has been introduced by Beller [24] et al. 

Carbene [25] - as well as phosphine [26] ligands have been attached to polymer supports and proved to be recyclable catalysts in the Heck reaction. 

In the Heck reaction, stereogenic C=C double bonds always are formed in a trans-selective fashion a few examples are shown in Figures 13.26-13.29. This fnms-selectivity is due to product-development control in the /I-elimination of the hydrido-Pd(II) complex (cf. step 6 of Figure 13.26) the more stable fnms-alkene is formed faster than the... 

It is often more convenient, as in the Heck reaction, to use a stable and soluble Pd(II) derivative such as bis(triphenylphosphine)palladium(II) chloride instead of Pd(0). This is rapidly reduced in situ to give a coordinatively unsaturated, catalytically active, palladium(O) species. The geometry of the alkene is generally preserved so that cis (Z) and trans (E) dichloroethylene give the two different geometrical isomers of the enyne below in >99% stereochemical purity as well as excellent yield. 

Retention of stereochemistry is demonstrated by the reaction of a substituted malonate with epoxycyclopentadiene. Palladium adds to the side opposite the epoxide so the nucleophile is forced to add from the same side as the OH group. This, no doubt, helps 1,4-regioselectivity. The required pal-ladium(O) phosphine complex was formed from a palladium(II) complex as in the Heck reaction. 

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