Heck reaction heterocycles

Pd-catalysts with heterocyclic ligands as catalysts for Heck reaction 98CSR427. 

Asymmetric Heck reaction in synthesis of heterocycles 97T7371. 

Synthesis of heterocycles using the intramolecular Heck reaction involving a formal nnd-elimination process 99H(51)1957. 

Employing Jefferey s ligandless conditions, Larock and Babu (87TL5291) synthesized quinolines and other nitrogen-containing heterocycles via the intramolcular Heck reaction strategy as exemplified by reaction 144 145. This reaction is similar to the Mori-Ban indole... 

Abstract This chapter highlights the use of iV-heterocyclic carbenes as supporting ligands in arylation reactions different than the more common cross-coupling reactions, including C-F bond activation, catalytic arylation, homocoupling, direct arylation and oxidative Heck reactions. 

The double-Heck-approach can also be employed for the preparation of novel heterocyclic compounds as 6/1-25 and 6/1-26 (Scheme 6/1.4) [24]. Thus, the palladium-catalyzed reaction of 6/1-21 and the cyclic enamide 6/1-22 gave a Oil-mixture of 6/1-23 and 6/1-24, which in a second Heck reaction using the palladacene 6/1-15 led to 6/1-25 and 6/1-26 in an overall yield of 44—49%. The synthesis can also be performed as a domino process using a mixture of Pd(OAc)2 and the palladacene 6/1-15. 

Scheme 6/1.4. Double Heck-reaction for the synthesis of heterocycles.

Dominguez and coworkers [41] used a twofold Heck reaction for the construction of annulated N-heterocycles such as 6/l-64a-c, starting from the enamides 6/1-63 which can be easily obtained from the corresponding amines 6/l-62a-c and o-iodo-benzoic acid chloride (Scheme 6/1.15). 

A synthetically useful application of an intramolecular microwave-assisted Heck reaction has been described by Gracias and coworkers (Scheme 6.9) [28], In their approach toward the synthesis of N-containing seven-membered heterocycles, the... 

Palladium chemistry involving heterocycles has its unique characteristics stemming from the heterocycles inherently different structural and electronic properties in comparison to the corresponding carbocyclic aryl compounds. One example illustrating the striking difference in reactivity between a heteroarene and a carbocyclic arene is the heteroaryl Heck reaction (vide infra, see Section 1.4). We define a heteroaryl Heck reaction as an intermolecular or an intramolecular Heck reaction occurring onto a heteroaryl recipient. Intermolecular Heck reactions of carbocyclic arenes as the recipients are rare [12a-d], whereas heterocycles including thiophenes, furans, thiazoles, oxazoles, imidazoles, pyrroles and indoles, etc. are excellent substrates. For instance, the heteroaryl Heck reaction of 2-chloro-3,6-diethylpyrazine (1) and benzoxazole occurred at the C(2) position of benzoxazole to elaborate pyrazinylbenzoxazole 2 [12e]. 

The Heck reaction, first disclosed by the Mori and Heck groups in the early 1970s [65, 66], is the Pd-catalyzed coupling reaction of organohalides (or triflates) with olefins. Nowadays, it has become an indispensable tool for organic chemists. Inevitably, many applications to heterocyclic chemistry have been pursued and successfully executed. In one case, Ohta et al. reacted 2-chloro-3,6-dimethylpyrazine (49) with styrene to furnish ( )-2,5-dimethyl-3-styrylpyrazine (50) [67]. Here, only the E isomer was observed. The outcome will become apparent during the ensuing discussions on the mechanism. 

One active field of research involving the Heck reaction is asymmetric Heck reactions (AHR). The objective is to achieve enantiomerically-enriched Heck products from racemic substrates using a catalytic amount of chiral ligands, making the process more practical and economical Although intermolecular Heck reactions that occurred onto carbocyclic arenes are rare, they readily take place onto many heterocycles including thiophenes, furans, thiazoles, oxazoles,... 

As will be seen in this chapter and in the rest of the book, the Heck reaction and its numerous variations represent a fantastically powerful set of tools available to the heterocyclic chemist. Although most Heck chemistry that involves pyrroles is intramolecular or entails synthesis of the pyrrole ring, a few intermolecular Heck reactions of pyrroles are known. Simple pyrroles (pyrrole, A-methylpyrrole, A-(phenylsulfonyl)pyrrole) react with 2-chloro-3,6-dialkylpyrazines under Heck conditions to give mixtures of C-2 and C-3 pyrrole-substituted pyrazines in low... 

Oxazoles and benzoxazoles are viable participants in the heteroaryl Heck reactions. In their monumental work published in 1992, Ohta and colleagues demonstrated that oxazoles and benzoxazoles, along with other rc-sufficient aromatic heterocycles such as furans, benzofurans, thiophenes, benzothiophenes, pyrroles, thiazole and imidazoles, are acceptable recipient partners for the heteroaryl Heck reactions of chloropyrazines [22b]. Therefore, treatment of 2-chloro-3,6-diethylpyrazine (27) with oxazole led to regioselective addition at C(5), giving rise to adduct 28. By contrast, a similar reaction between 2-chloro-3,6-diisobutylpyrazine (29) and benz[fc]oxazole took place at C(2) exclusively to afford pyrazinylbezoxazole 30. 

Furthermore, Ohta s group successfully conducted heteroaryl Heck reactions of chloropyrazines with many rt-electron-rich heteroaryls including furan, thiophene, benzo[ ]furan and benzo[6] thiophene [42, 43]. In reactions of chloropyrazines with furan, thiophene and pyrrole, disubstituted heterocycles were also isolated albeit in low yields. 

Palladium chemistry of heterocycles has its idiosyncrasies stemming from their different structural properties from the corresponding carbocyclic aryl compounds. Even activated chloroheterocycles are sufficiently reactive to undergo Pd-catalyzed reactions. As a consequence of a and y activation of heteroaryl halides, Pd-catalyzed chemistry may take place regioselectively at the activated positions, a phenomenon rarely seen in carbocyclic aryl halides. In addition, another salient peculiarity in palladium chemistry of heterocycles is the so-called heteroaryl Heck reaction . For instance, while intermolecular palladium-catalyzed arylations of carbocyclic arenes are rare, palladium-catalyzed arylations of azoles and many other heterocycles readily take place. Therefore, the principal aim of this book is to highlight important palladium-mediated reactions of heterocycles with emphasis on the unique characteristics of individual heterocycles. 

Ott, L. S. Cline, M. L. Deetlefs, M. et al. Nanoclusters in ionic liquids evidence for A-heterocyclic carbene formation from imidazolium-based ionic liquids detected by H-2 NMR, J. Am. Chem. Soc., 2005, 127(16), 5758-5759 Hamill, N. A., Hardacre, C. McMath, S. E. J. In situ XAES investigation of palladium species present during the Heck reaction in room temperature ionic liquids. Green Chem., 2002, 4(2), 139-142. 

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. 

Transition metal catalyzed insertion reactions offer a variety of alternate approaches for the preparation of heterocyclic rings, of which Heck reactions were utilised extensively to prepare rings with more than 6 atoms. At the end of this Chapter some examples of the use of insertion reactions in the formation of the carbacyclic part of condensed heterocyclic systems will also be presented. 

The first reaction is unique in a sense that both a five and a six membered heterocycle are formed in a tandem Heck reaction step. Closure of a five membered ring followed by the closure of the six membered ring converts the enamine shown in 5.8. to the isoindoloneisoquinoline framework.8... 

The Heck reaction of a 2-bromoindole derivative was used to introduce a three-carbon chain onto the heterocyclic core en route to indoloquinolizidine alkaloids (6.58.).ss... 

The common feature of the first set of examples discussed is the coupling of an arylpalladium complex, formed in oxidative addition, with a five membered heterocyclic ring via the formal displacement of a hydrogen atom. This reaction, formally a Heck coupling, is often called the heteroaryl Heck reaction . 

In the final example of the Heck reaction on solid support, a Chiron group54 55 used a palladium-catalyzed cyclization step to prepare heterocycles. An example of their work, the production of l-(2H)-isoquinolinones, is shown in Scheme 22. 

The reaction of heterocyclic lithium derivatives with organic halides to form a C-C bond has been discussed in Section 3.3.3.8.2. This cannot, however, be extended to aryl, alkenyl or heteroaryl halides in which the halogen is attached to an sp2 carbon. Such cross-coupling can be successfully achieved by nickel or palladium-catalyzed reaction of the unsaturated organohalide with a suitable heterocyclic metal derivative. The metal is usually zinc, magnesium, boron or tin occasionally lithium, mercury, copper, and silicon derivatives of thiophene have also found application in such reactions. In addition to this type, the Pd-catalyzed reaction of halogenated heterocycles with suitable alkenes and alkynes, usually referred to as the Heck reaction, is also discussed in this section. 

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