Palladium® complexes intramolecular additions

The palladium-catalyzed intramolecular addition of N—H to 2-butenylene dicarbamates leads to cyclization. Optical activity can be induced by chiral fer-rocenylphosphines carrying amino substituents with hydroxyalkyl side-chains such as (45). The reaction proceeds via 7r-allyl palladium complexes. The primary product can be hydrolyzed to give optically active aminoalcohols (Scheme... 

The intramolecular Heck reaction presented in Scheme 8 is also interesting and worthy of comment. Rawal s potentially general strategy for the stereocontrolled synthesis of the Strychnos alkaloids is predicated on the palladium-mediated intramolecular Heck reaction. In a concise synthesis of ( )-dehydrotubifoline [( )-40],22 Rawal et al. accomplished the conversion of compound 36 to the natural product under the conditions of Jeffery.23 In this ring-forming reaction, the a-alkenylpalladium(n) complex formed in the initial oxidative addition step engages the proximate cyclohexene double bond in a Heck cyclization, affording enamine 39 after syn /2-hydride elimination. The latter substance is a participant in a tautomeric equilibrium with imine ( )-40, which happens to be shifted substantially in favor of ( )-40. 

Secondary amines can be added to certain nonactivated alkenes if palladium(II) complexes are used as catalysts The complexation lowers the electron density of the double bond, facilitating nucleophilic attack. Markovnikov orientation is observed and the addition is anti An intramolecular addition to an alkyne unit in the presence of a palladium compound, generated a tetrahydropyridine, and a related addition to an allene is known.Amines add to allenes in the presence of a catalytic amount of CuBr " or palladium compounds.Molybdenum complexes have also been used in the addition of aniline to alkenes. Reduction of nitro compounds in the presence of rhodium catalysts, in the presence of alkenes, CO and H2, leads to an amine unit adding to the alkene moiety. An intramolecular addition of an amine unit to an alkene to form a pyrrolidine was reported using a lanthanide reagent. 

The intramolecular addition of the O-H bond to alkynes catalyzed by palladium complexes has been developed by K. Utimoto et al. (Eq. 6.59) [104]. An alkynyl alcohol can be converted to a cyclic alkenyl ether in the presence of a catalytic amount of [PdCl2(PhCN)2 or [PdCl2(MeCN)2] in ether or THE at room temperature. When the reaction was carried out in MeCN-H20 under reflux in the presence of a catalytic amount of PdCl2, hydration of the acetylenic alcohol occurred and the ketoalcohol was obtained in good yield instead. 

Me3SiPdSnBu3 is formed primarily from 6/1-237, which then adds to the allene moiety in 6/1-236 to give a a- or Jt-allyl palladium complex. This undergoes an intramolecular carbonyl allyl addition to afford the cis-cycloalkariols 6/1-238 (Scheme 6/1.61). 

Substituting the benzene ring with a double bond, Pd-catalyzed intramolecular alkoxylation of alkyne 122 also proceeded via an alkenyl palladium complex to form furan 123 instead of a benzofurans [99, 100]. In addition, 3-hydroxyalkylbenzo[fc]furans was prepared by Bishop et al via a Pd-catalyzed heteroannulation of silyl-protected alkynols with 2-iodophenol in a fashion akin to the Larock indole synthesis, [101]. 

The capture of the palladium complex formed in the intramolecular insertion of A-acryloyl-2-haloanilines has also been exploited by Grigg. The addition of aryl-, and vinylboron reagents to the mixture of N-(2 methylacryloyl)-2-iodoaniline and a palladium catalyst led, after the closure of the five membered ring, to the transfer of the organic moiety to the formal terminal carbon atom of the acryloyl chain (3.16.). The role of the substituent in the 2 -position is presumably to block / -hydride elimination and so prolong the lifetime of the palladium complex formed in the insertion step.21... 

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... 

Pyrrole and indole rings can also be constructed by intramolecular addition of nitrogen to a multiple bond activated by metal ion complexation. Thus, 1-aminomethyl-l-alkynyl carbinols (obtained by reduction of cyanohydrins of acetylenic ketones) are cyclized to pyrroles by palladium(II) salts. In this reaction the palladium(II)-complexed alkyne functions as the electrophile with aromatization involving elimination of palladium(II) and water (Scheme 42) (81TL4277). 

However, there are examples in intramolecular reactions where it is not necessary. An explanation is the formation of the unstable complex 18. The palladium catalyst may be transformed into an uncharacterized, catalytically ineffective complex. This problem is overcome by addition of LiCl, which results in the production of the stable palladium complex 19.9... 

Palladium complexes, e.g. Cl2Pd(dppf), have been shown to catalyse not only Zn-I exchange between alkyl iodides and dialkylzincs but also intramolecular carbozincation to produce cyclopentylmethylzincs.60 Once cyclopentyl-methylzincs are formed, they may be utilized in cross-coupling, conjugate addition, and other synthetically useful transformation reactions (Scheme 11.17). 

Palladium coordinates to one face of the diene promoting intramolecular attack by the alcohol on the opposite face. The resulting <7-alkyl palladium can form a 71-allyl complex with the palladium on the lower face simply by sliding along to interact with the double bond. Nucleophilic attack of chloride from the lithium salt then proceeds in the usual way on the face opposite palladium. The overall addition to the diene is therefore cis. 

A number of additional cyclizations involving alkynes have been reported. For instance, it has been shown that indoles may also be accessed from 2-bromo- or 2-chloroanilines, as illustrated by the regioselective preparation of the carbinol 373 in the presence of the ferrocene 374 (Equation 104) <20040L4129>, whereas a one-pot sequence featuring titanium catalyzed hydroamination of 2-chloroanilines with acetylenes, followed by intramolecular Heck cyclization in the presence of an imidazol-2-ylidene palladium complex, has also been reported <2004CC2824>. A set of aryl-2-indolyl carbinols have been prepared in high enantiomeric purity by palladium-catalyzed annulation of... 

The cyclization of 4,5-hexadienamines and -amides, catalyzed by palladium salts in the presence of copper(II) chloride under a carbon monoxide atmosphere, afforded 2-(2-pyrrolidinyl)acrylates. A different mechanism is operating here, which does not involve the intramolecular addition of nitrogen nucleophile to a rt-complex, but, instead, the addition of PdX2 to a double bond, followed by SN2 or S 2 displacement in the cyclization step28. 

Vinyl halides add to allylic amines in the presence of Ni(cod)2 where cod=l, 5-cyclooctodine, followed by reduction with sodium borohydride. Aryl iodides add to alkynes using a platinum complex in conjunction with a palladium catalyst. A palladium catalyst has been used alone for the same purpose, and the intramolecular addition of a arene to an aUcene was accomplished with a palladium or a GaCl3 catalyst, " AUcyl iodides add intramolecularly to aUcenes with a titanium catalyst, or to alkynes using indium metal and additives. The latter cyclization of aryl iodides to alkenes was accomplished with indium and iodine or with Sml2. " ... 

Although it probably did not involve a Heck reaction per se, Balme and co-workers employed an interesting tandem reaction in their construction of A 2) capnellene (147) (Scheme 6-26) [54J. Presumably vinyl iodide 144 undergoes initial oxidative addition with the palladium(O) catalyst to furnish a cr-alkenylpalladium(n) intermediate that is complexed to the pendant alkene. Intramolecular addition of the soft malonate nucleophile to this complex, from the opposite face, followed by reductive elimination, then provides tricycle... 

Reaction of bis(disilanyl)dithiane 32 with the corresponding palladium(O)-isonitrile complex affords a four-membered cyclic bis(silyl)palladium(II) complex 34 quantitatively together with the formation of a disilane (Eq. 15) [30]. The formal intramolecular metathesis of the two Si-Si bonds of 32 may proceed through initial formation of tetrakis(silyl)Pd(IV) complex, corresponding to the platinum complex 33. The double oxidative addition of the two Si-Si bonds may be followed by reductive elimination of the disilane with accompanying formation of four-membered bis(silyl)palladium complex 34, due to difficulty in reductive elimination leading to formation of a three-membered cyclic disilane. 

The pioneering studies in this area were reported in 1999 by Narasaka, who demonstrated intramolecular heteroatom Heck-type reactions of 0-pentafluorobenzoyl oximes [97]. As shown below, treatment of unsaturated substrate 97 with a catalytic amount of Pd(PPh,y in the presence of triethyl amine provided pyrrole 98 upon workup with chlorotrimethylsilane. The mechanism of this reaction proceeds via oxidative addition of the N—O bond to afford 99, which undergoes alkene insertion into the Pd—N bond to provide alkyl-palladium complex 100. The exo-methylene product 101 is generated by [i-hydride elimination from 100, and isomerization to the desired pyrrole 98 occurs when chlorotrimethylsilane is added. 

Intramolecular cyclization of alcohols to 1,3-dienes can lead to fused tetrahydrofurans and tetrahydropyrans. In this reaction, using 5 mol% Pd(0Ac)2, the first step involves a trans oxypalladation to form the heterocyclic ring and a jr-allyl palladium complex. In the presence of 0.2 equiv. of LiCl, AcO adds trans to the r-allyl, leading to a net cA-l,4 addition of oxygen nucleophiles to the diene. When LiCl is omitted, the AcO adds to the same face of the r-allyl as the palladium, giving net tra/ 5-1,4-addition of oxygen groups to the diene (Scheme 41). 

A more sophisticated procedure has recently allowed the preparation of palladium complex 34, based on an intramolecular Suzuki coupling. The key intermediate 39 is generated by oxidative addition of palladium(O) to 38, and treatment of 39 with base promotes a Suzuki-type intramolecular reaction leading to 34 (Scheme 7) [26]. The same procedure is applicable to the synthesis of benzyne-nickel complexes with a variety of ligands (PPh3, PCy3, PEt3) [26]. 

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