Palladium-catalyzed processes

Therefore, these molybdenum-catalyzed processes are efficient and complementary to the palladium-catalyzed processes, thus widening the scope of product synthesis. 

The palladium-catalyzed annulation of alkynes by functionally-substituted aryl and vinylic halides or triflates provides a veiy convenient and efficient approach to a wide variety of heterocycles and carbocycles. This chemistry has lead to the discovery of a number of novel palladium-catalyzed processes in which the palladium migrates from one carbon to another within the molecule providing a unique way to form carbon-carbon bonds in remote locations within the same molecule. 

New Palladium-Catalyzed Processes for the Synthesis of Selectively Substituted... 

A useful palladium-promoted reaction on an intact pyrrolidone is illustrated in Scheme 27 in which a 1-vinyl derivative is arylated to give both 1-and 2-isomers.55 Compounds of type 24 may prove to be useful precursors for the synthesis of pharmacologically valuable 2-arylethylamines. A related palladium-catalyzed process is described in the section on furans. (see Eq. 14 in Section IV,B,1). 

Muller TJJ (2006) Sequentially Palladium-Catalyzed Processes. 19 149-206 Mulzer J, Ohler E (2004) Olefin Metathesis in Natural Product Syntheses. 13 269-366 Muniz K (2004) Planar Chiral Arene Chromium (0) Complexes as Ligands for Asymetric Catalysis. 7 205-223 Murai S, see Kakiuchi F (1999) 3 47-79... 

The preparations of aryl sulfides typically employ aryl halides as starting materials. The procedure described here makes use of the ubiquitous class of commercially available phenolic compounds in the form of aryl triflates, which expands the range of readily accessible aryl sulfides. Prior to this disclosure, the use of aryl triflates in a palladium-catalyzed process for the formation of aryl alkyl sulfides was unprecedented. This procedure appears to be general with regard to electronically neutral or electron-deficient aryl triflates (Table 1). The yields in Table I correspond to the initially disclosed procedure employing sodium (ert-butoxide as the base. Lower yields were obtained with the 4-nitro-... 

Molybdenum-catalyzed allylic alkylation has been used as a complementary synthetic procedure to the palladium-catalyzed process/ because allylic alkylation of unsymmetrical substrates takes place mostly at the more substituted carbon atom, in contrast to the palladium case. 

Since Wakamatsu serendipitously discovered amidocarbonylation while performing the cobalt-catalyzed hydroformyla-tion of olefins in 1971, this unique carbonylation reaction, affording a-amino acids directly from aldehydes, has been extensively studied.More recently, palladium-catalyzed processes have been developed to expand the scope of this reaction.The Pd-catalyzed amidocarbonylation has been applied to aldehydes,aryl halides, and imines. As a related reaction, lactamization " of aryl halides catalyzed by a rhodium complex has also been developed. 

The opening step of the Buchwald-Hartwig reaction, similarly to the previous cases, is the oxidative addition of an aryl halide or sulfonate onto a low oxidation state metal. Although the term Buchwald-Hartwig reaction is usually reserved for palladium catalyzed processes, carbon-heteroatom bond formation also proceeds readily with nickel and copper. The nickel catalyzed processes follow a similar mechanism, while the distinctly different copper catalyzed reactions will be discussed in Chapter 2.5. 

The homogeneous palladium-catalyzed process for acetoxylation was never commercialized because of low selectivity and the difficulty in separating the catalyst from the reaction mixture. Heterogeneous palladium catalysts applied in the gas phase, in turn, quickly lose activity caused by buildup of polybutadiene. The Mitsubishi process uses a Pd-Te-on-active-carbon catalyst in the liquid phase. Tellurium apparently prevents palladium elution to acetic acid. 

As stated above, aliphatic amines are potent ligands for electrophilic transition metals and are efficient catalyst poisons in attempted alkene animation reactions. However, tosylation of the basic amino group greatly reduces its complexing ability, yet does not compromise its ability to nucleophilically attack complexed alkenes. Thus, a variety of alkenic tosamides efficiently cyclized under palladium(II) catalysis producing N-tosylenamines in excellent yield (equations 17 and 18).32 Again, this alkene amination proceeded through an unstable a-alkylpalladium(II) species, which could be intercepted by carbon monoxide, to result in an overall aminocarbonylation of alkenes. With ureas of 3-hydroxy-4-pentenyl-amines (Scheme 7), this palladium-catalyzed process was quite efficient but it was somewhat less so with... 

A similar palladium-catalyzed process involving an intramolecular Heck-type reaction in the first step was developed by Grigg and co-workers [70], The resulting seven-membered ring vinylpalladium(II) intermediate 54 reacts with the allene to... 

Although palladium-catalyzed processes have also achieved improvements in the field of acetylenic coupling [2], the Glaser-Hay and Cadiot-Chodkiewicz copper-mediated methods still remain the most used. Further mechanistic investigations seem to be necessary, to overcome the limitations of the existing procedures, mainly poor selectivity and predictability. 

Palladium-catalyzed processes are perhaps the most important developments in heterocyclic chemistry since CHEC-II and certainly since the original GHEG. The intermediates are never isolated, but, nonetheless, are essential to the transformations. Oxidative insertions of palladium (or less often, nickel, or iron), especially into bromo- or iodoazines, or triflates (prepared from -ols or - or -ones), or alternatively, the use of pyridine boronic acids, boronates, stannanes, silanes, and organmetallic species such as Grignard and zinc derivatives, form the basis of these methodologies. 

Another gain in diversity is achieved by the combination of these cross couplings with uncatalyzed reactions. Because of their oligounsaturated character, the coupling products are obviously well suited for subsequent peri-cyclic reactions leading to additional cyclizations. These atom-efficient processes are especially attractive since they typically proceed with high chemo-, regio- and stereoselectivity [18]. This review is intended to cover Heck reactions and related palladium-catalyzed processes followed by Diels-Alder reactions, 1,3-dipolar cycloadditions or 6 -electrocyclizations. 

Abstract Sequentially palladium-catalyzed reactions consist of combinations of identical, related, or significantly different palladium-catalyzed processes that occur in a sequential or consecutive fashion in the same reaction vessel without addition of further amounts of catalyst to the reaction media. This novel type of cascade reaction can be elaborated into both domino and multicomponent processes and represents a significant contribution to the highly topical field of diversity-oriented synthesis. 

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