Insertion carbopalladative

As a unique reaction of Pd(II), the oxidative carbonylation of alkenes is possible with Pd(ll) salts. Oxidative carbonylation is mechanistically different from the hydrocarboxylation of alkenes catalyzed by Pd(0), which is treated in Chapter 4, Section 7.1. The oxidative carbonylation in alcohol can be understood in the following way. The reaction starts by the formation of the alkoxy-carbonylpalladium 218. Carbopalladation of alkene (alkene insertion) with 218 gives 219. Then elimination of /3-hydrogen of this intermediate 219 proceeds to... 

The carbopalladation of allylamine with malonate affords the chelating complex 510, which undergoes insertion of methyl vinyl ketone to form the amino enone 511[463]. The allylic sulfide 512 has the same chelating effect to give the five-membered complex 513 by carbopalladation[463.464]. 

Stereochemical features in the oxidative addition and the elimination of /3-hydrogen of cyclic and acyclic alkenes are different. The insertion (palladation) is syn addition. The syn addition (carbopalladation) of R—Pd—X to an acyclic alkene is followed by the syn elimination of 3-hydrogen to give the trans-a ksne 6, because free rotation of 5 is possible with the acyclic alkene. On the other hand, no rotation of the intermediate 7 is possible with a cyclic alkene and the syn elimination of /3-hydrogen gives the allylic compound 8 rather than a substituted alkene. 

Intramolecular reaction can be used for polycyclization reaction[275]. In the so-called Pd-catalyzed cascade carbopalladation of the polyalkenyne 392, the first step is the oxidative addition to alkenyl iodide. Then the intramolecular alkyne insertion takes place twice, followed by the alkene insertion twice. The last step is the elimination of/3-hydrogen. In this way, the steroid skeleton 393 is constructed from the linear diynetriene 392(276]. 

The intramolecular carbopalladation (or insertion) of the triple bond in dimethyl 4-pentynylmalonate (215) with Pd—H species and malonate anion as shown by 216 proceeds in the presence of f-BuOK and 18-crown ether, affording the methylenecyclopentane derivatives 217 and 218, the amounts of which depend on the reaction conditions. The Pd—H species may be formed... 

Tietze and coworkers [60] observed a combination of a Heck reaction and a C-H-activation by treatment of the alkyne 6/1-111 with Pd°. These authors aimed at compound 6/1-112, but 6/1-110 was obtained as a single product in high yield (Scheme 6/1.29). It can again be assumed that after oxidative addition a cis-carbopalladation of the triple bond takes place to give an alkenyl Pd intermediate which undergoes the C-H-insertion into the neighboring naphthalene and not into the aryl ether moiety. 

Insertion of palladium into the Si-Sn bond generates intermediate 428 that undergoes m-addition on the triple bond (Scheme 108). The resulting vinylpalladium 429 ensures the carbopalladation of the second triple bond followed by reductive elimination with retention of stereochemistry.376... 

A one-pot synthesis of 3,3-disubstituted indolines was achieved by taking advantage of a sequential carbopalladation of allene, nucleophile attack, intramolecular insertion of an olefm and termination with NaBPh4 (Scheme 16.6) [10]. First, a Pd(0) species reacts with iodothiophene selectively to afford ArPdl, probably because the oxidative addition step is facilitated by coordination with the adjacent sulfur atom. Second, the ArPdl adds to allene, giving a Jt-allylpalladium complex, which is captured by a 2-iodoaniline derivative to afford an isolable allylic compound. Under more severe conditions, the oxidative addition of iodide to Pd(0) followed by the insertion of an internal olefm takes place to give an alkylpalladium complex, which is transmetallated with NaBPh4 to release the product. 

Homoallylic alcohols are provided by Pd-catalyzed reaction of iodobenzene, allene and aldehydes (Scheme 16.15) [19, 20]. A nucleophilic allylindium intermediate is generated through transmetallation of a Jt-allylpalladium species with indium. Such a Jt-allylpalladium complex can alternatively be provided through carbopalladation of ArPdl to a proximate acetylene followed by insertion of allene. 

An inter-intra-intramolecular carbopalladation cascade, initiated by the alkenylpalladium bromide intermediate from /3-bromostyrene 74 inserting into one of the triple bonds of the diyne 73, yields the ring-annelated fulvene derivative 75 (Scheme 22). ... 

For such cascades with intramolecular carbopalladations, smaller ring sizes (5 and 6) are preferred due to the entropic term thus, 1,1-disubstituted alkenes suitably located in the substrate preferably serve as the relay without formation of the larger ring size resulting from insertion into the terminal alkene moiety. 

The intermolecular carbopalladation of a triple bond can be faster than that of an intramolecular double bond as, for example, in the (9-iodo(l-methylallyl)benzene 152. The arylpalladium iodide initially formed from 152 and a palladium(O) species intermolecularly carbopalladates diphenylacetylene 71, and only the thus formed alkenylpalla-dium intermediate 153 undergoes insertion into the internal double bond to furnish the neopentylpalladium species 154 which, by <9r/ (9-attack on the adjacent phenyl group, finally forms the tetracyclic system 155. ... 

With its (9r/ (9-(cu-phenylalkynyl) group, the iodoarene 156 in the presence of a palladium catalyst initiates the cascade process with an intramolecular carbopalladation this is followed by an intermolecular insertion, for example, into the double bond of the 3-azanorborn-5-en-l-one 157 and terminated by ortho-2XX,2Jz of the norbornyl-type cr-palladium intermediate on the previously terminal aryl group to yield the two regioisomeric hexacyclic systems 158 and 159 in a ratio of 1 1 (Scheme 39). ... 

The first step in the cycle, analogous to the cross-coupling reactions, is the oxidative addition of an aryl (vinyl) halide or sulfonate onto the low oxidation state metal, usually palladium(O). The second step is the coordination of the olefin followed by its insertion into the palladium-carbon bond (carbopalladation). In most cases palladium is preferentially attached to the sterically less hindered end of the carbon-carbon double bond. The product is released from the palladium in a / -hydrogen elimination and the active form of the catalyst is regenerated by the loss of HX in a reductive elimination step. To facilitate the process an equivalent amount of base is usually added to the reaction mixture. 

In spite of its formal similarity to the above mentioned annulation processes, the reaction shown in 4.37. includes a unique migration step. Oxidative insertion of the palladium into the phenyl-iodine bond is followed by the migration of the palladium onto the more electron rich indole ring. The 2-indolylpalladium complex than carbopalladates the pendant alkync moiety and the process ends by the formal activation of a C-H bond of the phenyl substituent and subsequent reductive elimination, furnishing the pentacyclic product.48 The same strategy has been utilised in the preparation of the indoloindolone framework from /V-bcnzoyl-3-(o-iodophcnyl)-indolc in an oxidative addition - palladium migration - C-H activation sequence.49... 

On the basis of the reaction of conjugated dienes with unsaturated halides in the presence of external nucleophiles, an elegant intramolecular version leading to a-alkylidene-y-lactams, has been developed (Scheme 8.19). Starting with an aryl halide, the regioselective insertion of an arylpalladium halide to the triple bond of acyclic compound 42 gives the c-vinylpalladium intermediate 43. Subsequent intramolecular carbopalladation of the diene affords a re-allyl palladium intermediate... 

All reactions described in this section are explained by (i) the oxidative addition of a halide to generate the arylpalladium halide 14 (ii) insertion of an alkene to form 15, which is regarded as carbopalladation of alkenes and (iii) formation of the new alkene 16 by elimination of /I-hydrogen (dehydropalladation). The reaction was reported independently by Mizoroki [3] and by Heck [4], and is called the Mizoroki Heck or Heck reaction [5]. 

Oxypalladation of vinyl ether, followed by alkene insertion, is an interesting synthetic route to functionalized cyclic ethers. In prostaglandin synthesis, the oxypalladation of ethyl vinyl ether (40) with the protected cyclopentenediol 39 generates 41 and its intramolecular alkene insertion generates 42. The intermolecular insertion of the alkene 43, and /1-elimination of 44 occurred as one-pot reaction at room temperature, giving the final product 45 in 72% yield [46], The stereochemistry of the product shows that the alkene insertion (carbopalladation of 41) is syn. It should be noted that the elimination of /1-hydrogen from the intermediate 42 is not possible, because there is no /1-hydrogen syn coplanar to the Pd and, instead, the insertion of alkene 43 occurs. 

Another type of carbopalladation is observed in the oxidation of the 2,2-disubstituted alkene attached to the cyclobutanol 104. The shift of the carbon-carbon bond as shown by 105 and ring expansion generate 106. Intramolecular alkene insertion gives the bicyclo[4.3.0]nonane system 107. Finally, 108 is obtained [78],... 

The aminopalladation and subsequent carbonylation proceed smoothly. The aminopalladation of one of the double bonds of allene 129 generates 130, and CO insertion affords the ester 131 [96]. The carbopalladation of the optically active N-vinyl carbamate 132 with malonate afforded 133. Then CO insertion and trapping with vinylstannane produced the ketone 134 with 95% de, which was converted to 135 [97]. 

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