Palladium® complexes carbopalladation

Another variant of the Heck reaction which is important in heterocyclic chemistry utilizes five membered heterocycles as olefin equivalent (2.2.)7 It is not clear whether the process, coined as heteroaryl Heck reaction follows the Heck mechanism (i. e. carbopalladation of the aromatic ring followed by //-elimination) or goes via a different route (e.g. electrophilic substitution by the palladium complex or oxidative addition into the C-H bond). Irrespective of these mechanistic uncertainties the reaction is of great synthetic value and is frequently used in the preparation of complex policyclic structures. 

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... 

Carbopalladation. Allylic amines and sulfides form palladium complexes in high yield with dilithium tetrachloropalladate (THF, 20°, 6-8 hours). These complexes react with certain carbanions at the jS-position, a site that is not susceptible to nucleophilic displacement in allylic amines and sulfides. The complexes need not be isolated these reactions are conducted in THF at room temperature by reaction of the allylic amine or sulfide with the carbanion in the presence of 1 equiv. of LizPdCU (equations I and II). The products are the palladium complexes 1 and 3. These are reduced by sodium borohydride or sodium cyanoborohydride... 

In 1968, van Helden and co-workers studied the corresponding carbopalladation reaction of 1,2-propadiene with the 7r-allylpaUadium species 5, affording ri -(2- 2 -alkenyl)allyl)palladium complex 6 (Scheme 3).f t Similar results were observed by Hughes and Powell. The rate-determining step for these insertion reactions is the actual insertion step, not the coordination of the 1,2-diene onto Pd. ... 

Carbopalladation is the reaction of a cr-bonded organopalladium complex I with an unsaturated molecule (such as an alkene 2) to yield the migratory insertion product 3 (Scheme 1). The reaction is tremendously flexible, allowing for a wide variety of structural types for both reactants 1 and 2. The precursors of palladium complexes 1 are commonly alkenyl or aryl halides or triflates (8 and 9, respectively), the reaction of which is more commonly termed the Heck reaction. Allylic systems 10, which react to provide -Tr-allylpalladium complexes, can participate in the reaction as can benzylic precursors 11. Acylpalladium complexes 12 also react and are commonly generated in the same reaction vessel by Pd-catalyzed carbonylation. Their unsaturated reaction partners include alkenes 2, alkynes 4, dienes 6, allenes, and arenes, all of which can be electron rich or poor. Carbopalladation occurs in a syn fashion allowing the installation of stereocenters (2- 3) or control of alkene geometry (4- 5). 

Carbopalladation reactions yield another carbon-bound palladium complex 13, which can undergo a variety of reactions (Scheme 2). The most common pathway yields an alkene 14 via a 5yn-/S-hydride elimination. Two other useful reactions are carbonylation (13- 15) and anion capture (13- 16), which provide opportunities for further function-alization.t Additionally, carbopalladation products can be induced to undergo another carbopalladation reaction, creating the opportunity to forge multiple carbon-carbon bonds. Simple combinations of palladium complex precursors and reactions quickly... 

Yoshida, Kunai et al. have reported some reactions of this type, complementing the transition metal-free aryne insertion into o-bonds. Mechanistically, these reactions could proceed via carbopalladation of arynes by the palladium complex arising from the initial oxidative... 

Palladium-catalyzed annulation reactions of conjugate acceptors and allenyl boronic ester provide substituted cyclopentenes in high yields and diastereose-lectivities (Scheme 6.24). These reactions are hypothesized to commence by the conjugate addition of a nucleophilic propargyl-palladium complex. Transmetalation of allenylboronic acid pinacol ester with a Pd(II) catalyst proceeds via an SE2 mechanism to provide the propargyl-palladium complex, which on conjugate attack on the electrophile furnishes an allene intermediate. Finally, endo carbopalladation of the pendant allene and protodepalladation generates the cyclopentene [28]. 

The cyclopalladation of allylic or homoallylic amines and sulfides proceeds due to the chelating effect of N and S atoms, and has been used for functionalization of alkenes. For example, i-propyl 3-butenyl sulfide is carbopalladated with methyl cy-clopentanecarboxylate and Li2PdCl4. Reduction of the chelated complex with sodium cyanoborohydride affords the alkylated keto ester in 96% yield (eq 24). Functionalization of 3-N,N-dimethylaminocyclopentene for the synthesis of a prostaglandin skeleton has been carried out via a IV-chelated palladium complex as an intermediate. In the first step, malonate was introduced regio- and stereoselectively by carbopalladation (eq 25). Elimination of a /3-hydrogen generated a new cyclopentene, and its oxypalladation with 2-chloroethanol, followed by insertion of 1-octen-3-one and /3-elimination, afforded the final product. 

Recently, Larock and coworkers used a domino Heck/Suzuki process for the synthesis of a multitude of tamoxifen analogues [48] (Scheme 6/1.20). In their approach, these authors used a three-component coupling reaction of readily available aryl iodides, internal alkynes and aryl boronic acids to give the expected tetrasubsti-tuted olefins in good yields. As an example, treatment of a mixture of phenyliodide, the alkyne 6/1-78 and phenylboronic acid with catalytic amounts of PdCl2(PhCN)2 gave 6/1-79 in 90% yield. In this process, substituted aryl iodides and heteroaromatic boronic acids may also be employed. It can be assumed that, after Pd°-cata-lyzed oxidative addition of the aryl iodide, a ds-carbopalladation of the internal alkyne takes place to form a vinylic palladium intermediate. This then reacts with the ate complex of the aryl boronic acid in a transmetalation, followed by a reductive elimination. 

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