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Wacker-type processes

Betzemeier et al. (1998) have used f-BuOOH, in the presence of a Pd(II) catalyst bearing perfluorinated ligands using a biphasic system of benzene and bromo perfluoro octane to convert a variety of olefins, such as styrene, p-substituted styrenes, vinyl naphthalene, 1-decene etc. to the corresponding ketone via a Wacker type process. Xia and Fell (1997) have used the Li salt of triphenylphosphine monosulphonic acid, which can be solubilized with methanol. A hydroformylation reaction is conducted and catalyst recovery is facilitated by removal of methanol when filtration or extraction with water can be practised. The aqueous solution can be evaporated and the solid salt can be dissolved in methanol and recycled. [Pg.143]

Carbonylations involving catalytic amounts of Pd(n) and substoichiometric Cu(n) have been developed for the synthesis of lactams. This Wacker-type process is assumed to proceed via C-H functionalization involving a palladacycle intermediate such a hypothesis is backed by the high degree of regioselectivity attained, when using a bis-chelating substrate (Equation (114)).104... [Pg.137]

While the Mori-Ban indole synthesis is catalyzed by a Pd(0) species, the Hegedus indole synthesis is catalyzed by a Pd(II) complex. In addition, the Mori-Ban indole synthesis is accomplished via a Pd-catalyzed vinylation (a Heck recation), whereas the Hegedus indole synthesis established the pyrrole ring via a Pd(II)-catalyzed amination (a Wacker-type process). Hegedus conducted the Pd-induced amination of alkenes [430] to an intramolecular version leading to indoles from o-allylanilines and o-vinylanilines [291-293, 295, 250, 251]. Three of the original examples from the work of Hegedus are shown below. [Pg.151]

As indicated under section 2.2. the overall result is the same as that of an insertion reaction, the difference being that insertion gives rise to a yw-addition and nucleophilic attack to an anri-addition. Sometimes the two reaction types are called inner sphere and outer sphere attack. There is ample proof for the anti fashion the organic fragment can be freed from the complex by treatment with protic acids and the organic product can be analysed [19], Appropriately substituted alkenes will show the syn or anti fashion of the addition. The addition reaction of this type is the key-step in the Wacker-type processes catalysed by palladium. [Pg.44]

Not only acetylene derivatives do undergo palladium catalysed intarmolecular carbon-nitrogen bond formation with amines. The similar reaction of olefins in a Wacker-type process also leads to ring closure. (0-Aminopentenes bearing a suitable leaving group in the 4-position were converted to pyrroles in a cyclization-isomerisation-elimination sequence (3.65.),82... [Pg.53]

Alike olefins, allenes also undergo palladium mediated addition in the presence of N-H or O-H bonds. Although these reactions show some similarity to Wacker-type processes, from the mechanistic point of view they are quite different. Allenes, such as the cr-aminoallene in 3.69., usually undergo addition with palladium complexes (e.g. carbopalladation in 3.69. and 3.70., or hydropalladation in 3.71.), which leads to the formation of a functionalized allylpalladium complex. Subsequent intramolecular nucleophilic attack by the amino group leads to the closure of the pyrroline ring.87... [Pg.54]

In Fig. 4.35 the nucleophile depicted is anionic, but Nu may also be a neutral nucleophile, such as an amine or H2O. There are many alkene complexes of middle and late transition elements which undergo this type of reaction, e.g. M = Pd2+, Pt2, Hg2+, Zn2+, FeCp(CO)2+. The addition reaction of this type is the key step in the Wacker-type processes catalyzed by palladium. [Pg.120]

The first step of this reaction is the known ring cleavage of the cyclopropanol 106 under Pd(II) catalysis [94]. Next, the authors suggest either a Wacker-type process for the Pd(II)-catalyzed reaction leading to 2,3-dihydro-lff-pyridin-4-ones 107 after a /J-hydride elimination step, or... [Pg.143]

Studies in the laboratory of M. Shibasaki toward the total synthesis of garsubellin A led to the stereocontrolled synthesis of the 18-ep/-tricyclic core of the natural product/ During the final stages of the synthetic sequence, the tetrahydrofuran ring was installed using a Wacker-type process. The reaction conditions insured that the acetonide protecting group was first removed and the Cl 8 secondary alcohol moiety served as the internal nucleophile to form the tricyclic product. [Pg.475]

Two types of reactions are summarized in this section (i) the intermolecular carbopalladation leads to a Pd functionality such as alkyl-, alkenyl-, or allylpalladium complexes, which is intramolecularly trapped by a heteroatom (again Wacker-type processes are mechanistic alternatives) (ii) the palladium catalyst is not directly involved in the hetero-cyclization step, but the carbopalladation builds up a suitable functionality or changes bond angles so that the heterocyclization can take place. [Pg.1272]

In catalytic reactions involving Pd(II) salts, carboxypalladation yields an alkylpal-ladium species that can often undergo (3-H elimination instead of protonolysis. Subsequently, Stoltz and coworkers demonstrated that Wacker-type processes can also afford lactones under oxidative conditions (Scheme 2.35). The proposed mechanism involves Pd(II) coordination to the alkene, followed by oxypalladation and (3-H elimination. After elimination of HX to form Pd(0), aerobic oxidation is required to regenerate a Pd(II) species. The net result is olefin transposition to an adjacent position [80]. [Pg.50]


See other pages where Wacker-type processes is mentioned: [Pg.1538]    [Pg.197]    [Pg.393]    [Pg.34]    [Pg.42]    [Pg.1774]    [Pg.155]    [Pg.17]    [Pg.170]    [Pg.23]    [Pg.1309]   
See also in sourсe #XX -- [ Pg.475 ]




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