Phosphine ligands Heck coupling reactions

Water-soluble phosphine ligands containing m-guanidinium moieties were synthesized and applied to aqueous Heck coupling reactions.149 High temperature appears beneficial for Heck-type coupling of simple alkenes in water.150... 

Shaughnessy et al. (155) reported the rapid, sequential screening of three phosphine ligand libraries L22-L24 in a Heck coupling reaction involving a fluorescent substrate 9.92 and the supported aryl bromide 9.93, whose structure and synthesis are reported in Fig. 9.36. 

Fujita, S., Yuzawa, K., Bhanage, B.M. et al. (2002) Palladium-catalyzed Heck coupling reactions using different fluorinated phosphine ligands in compressed carbon dioxide and conventional organic solvents. J. Mol. Catal. A Chem., 180, 35-42. 

Palladium-catalyzed Direct Arylation of Indoles and Thiophenes. Five-membered ring heterocycles possessing only one heteroatom and no Af-oxide function can also be arylated using palladium(II) complexes, a phosphine ligand, and an inorganic base. In one example, a tandem palladium-catalyzed Heck coupling reaction and direct intramolecular C2 arylation reaction on a )V-(2-chlorobenzyl)-5-bromoindole was reported (eq 30). The procedure, which is catalyzed by palladium acetate, uses tn-tert-butylphosphonium tetrafluoroborate as a ligand and ferf-butyl acrylate as the alkene for the Heck reaction (eq 30). ... 

Stable palladium nanopartides were also prepared using thermosensitive VE star polymers. The obtained partides were shown to work as a catalyst for the Heck coupling of iodobenzene and ethyl acrylate. A feature of this system is nonnecessity of expensive and toxic phosphine ligands. In mechanistic point of view, this zero-valent Pd-mediated reaction would shed new light on how Heck coupling reactions proceed. 

The ease of formation of the carbene depends on the nucleophilicity of the anion associated with the imidazolium. For example, when Pd(OAc)2 is heated in the presence of [BMIM][Br], the formation of a mixture of Pd imidazolylidene complexes occurs. Palladium complexes have been shown to be active and stable catalysts for Heck and other C-C coupling reactions [34]. The highest activity and stability of palladium is observed in the ionic liquid [BMIM][Brj. Carbene complexes can be formed not only by deprotonation of the imidazolium cation but also by direct oxidative addition to metal(O) (Scheme 5.3-3). These heterocyclic carbene ligands can be functionalized with polar groups in order to increase their affinity for ionic liquids. While their donor properties can be compared to those of donor phosphines, they have the advantage over phosphines of being stable toward oxidation. 

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. 

Phosphine ligands based on the ferrocene backbone are very efficient in many palladium-catalyzed reactions, e.g., cross-coupling reactions,248 Heck reaction,249 amination reaction,250 and enantioselective synthesis.251 A particularly interesting example of an unusual coordination mode of the l,l -bis(diphenylphosphino)ferrocene (dppf) ligand has been reported. Dicationic palladium(II) complexes, such as [(dppf)Pd(PPh3)]2+[BF4 ]2, were shown to contain a palladium-iron bond.252,253 Palladium-iron bonds occur also in monocationic methyl and acylpalladium(II) complexes.254 A palladium-iron interaction is favored by bulky alkyl substituents on phosphorus and a lower electron density at palladium. 

Therefore, a good catalyst leads to weak fluorescence in the Heck product (15). A relatively small library of 96 known phosphines was tested in the palladium-catalyzed Heck coupling. Several sterically hindered ligands led to high catalyst activity. Fluorescence tags have also been used in the combinatorial search for metal-free catalysts in other types of reaction.42,43... 

Bergbreiter reported that poly(N-isopropylacrylamide)-bound phosphine ligands (PNIPAM-resins) coordinated with the Pd(0) moieties afford efficient catalysts (46) for the Heck, Suzuki and sp-sp cross-coupling reactions (Scheme 4.30) [122]. 

The Heck reaction is a C-C coupling reaction where an unsaturated hydrocarbon or arene halide/triflate/sulfonate reacts with an alkene in presence of a base and Pd(0) catalyst so as to form a substituted alkene. Kaufmann et al. showed that the Heck reaction carried out in presence of ILs such as tetra-alkyl ammonium and phosphonium salts without the phosphine ligands, resulted in high yields of product. They attributed the activity to the stabilizing effect of ammonium and phosphonium salts on Pd(0) species. Carmichael et al. used ionic liquids containing either A,A -dialkylimidazolium and A-alkylpyridinium cations with anions such as halide, hexafluorophosphate or tetrafiuoroborate to carry out reactions of aryl halide and benzoic anhydride with ethyl and butyl acrylates in presence of Pd catalyst. An example of iodobenzene reacting with ethyl acrylate to give trans-et vy cinnamate is shown in Scheme 14. 

Palladium-catalyzed olefin arylation reactions ( Heck coupling ) have been successfully employed for the generation of C-C bonds in organic synthesis for decades [174-177]. Arylhalides and olefins are coupled by palladium catalysts (typically with phosphine co-ligands) in the presence of base, such as a tri-alkylamine. 

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. 

A nonclassical substrate for the Heck reaction is 2,3-epoxycyclohexanone. The reactivity of this molecule under Heck coupling conditions is most likely attributed to its in situ isomerization to 1,2-cyclohexanedione. The 1,2-diketone subsequently reacts with aryl bromides as an olefin via the enol tautomer. Thus, within 5 to 30 min of directed microwave heating of the aqueous PEG mixture, up to 13 different C3-arylations were conducted using less than 0.05 mol % palladium acetate and no phosphine ligand (Scheme 12) [51]. 

The scope of the Heck and related coupling reactions was substantially broadened by the development, in the last few years, of palladium/ligand combinations which are effective with the cheap and readily available but less reactive aryl chlorides [86, 87] rather than the corresponding bromides or iodides. The process still generates one equivalent of chloride, however. Of interest in this context, therefore, is the report of a halide-free Heck reaction which employs an aromatic carboxylic anhydride as the arylating agent and requires no base or phosphine ligands [89]. 

Diaryl-substituted isoxazolidines were synthesized in a one-pot reaction starting from aryl halides and 0-homoallyl hydroxylamines through a diastereoselective cascade reaction catalyzed by Pd(0). The choice of the phosphine ligand was shown to affect the product distribution between the isoxazolidine and the Heck-type product. The best results were obtained when 1 mol% of Pd2(DBA)3/P(o-Tol)3 was used (DBA = dibenzylideneacetone). For example, under these conditions, isoxazolidine 520 was obtained in 79% yield together with a minor amount of the Heck coupling adduct 521 (Equation 83) <2006TL927>. 

Blaser and Spencer used aroyl halides in place of aryl halides, with aroyl chlorides being of specific interest as ubiquitous, relatively cheap compounds ( Blaser reaction ) [24], This latter reaction is normally conducted in aromatic solvents phosphines are not used here as catalyst ligands since they fully inhibit the reaction. In the same way, benzoic acid anhydrides can be used as the aryl source in combination with PdCl2 and catalytic amounts of NaBr [79]. In this reaction, one of the arenes is used in the coupling reaction by elimination of CO, whereas the other benzoate serves as the base. The benzoic acid thus formed can easily be recycled into the anhydride. The use of aryl and vinyl triflates according to Cacchi [25] and Stille [26] extends the scope of the Heck coupling to carbonyl compounds phenol derivatives act via triflate functionalization as synthetic equivalents of the aryl halides. The arylation of cyclic alkenes [27], electron-rich vinyl ethers [28], and allylic alcohols [29] is accessible through Heck reactions. Allylic alcohols yield C-C-saturated carbonyl compounds (aldehydes) for mechanistic reasons (y9-H elimination), as exemplified in eq. (6). 

Pd-catalyzed C-C-coupling reactions of the Heck type, e. g., Suzuki [48c] and Stille [49c] cross-coupling, are excellent tools for the preparation of biaryls (see also Section 3.1.9). The activity and stability of the catalyst is highly dependent on the steric and electronic properties of the ligands. Sterically demanding basic alkylphosphines e. g., tri(/-butyl)phosphine, have proven to be very effective ligands in the Heck reaction [50] as well as in the Suzuki cross-coupling [51]. NHCs resemble those basic phosphines (see above) and therefore were tested... 

---