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Heck reaction insertion

A stereocontrolled synthesis of polyfused ring systems utilizing the chloroacetoxylation approach is shown in Scheme 8-26 [95]. Sequential ally lie substitution of the chloroacetates afforded key intermediate 75. Subsequent palladium-catalyzed tandem metalloene/Heck insertion reactions gave polyfused ring systems 76 and 77. [Pg.467]

In reactions which do not proceed via a /weyo-n-allyl complex, almost complete stereoselectivity in favor of the product with retenlion of configuration is observed, but regioselectivity may cause problems. The electron-withdrawing properties of the alkyl substituenl in the allylic aceiatc 22 is responsible for the exclusive formation of the distal product 2354 rather than its steric demand, since the nucleophile approaches the ir-allyl complex trans to the substituent. After further derivatization, the products 23 can be converted to polyfused ring systems by an intramolecular tandem palladium ene-Heck insertion reaction. [Pg.183]

Much of the recent interest in insertion reactions undeniably stems from the emphasis placed on development of homogeneous catalysis as a rational discipline. One or more insertion is involved in such catalytic processes as the hydroformylation (31) or the polymerization of olefins 26, 75) and isocyanides 244). In addition, many insertion reactions have been successfully employed in organic and organometallic synthesis. The research in this general area has helped systematize a large body of previously unrelated facts and opened new areas of chemistry for investigation. Heck 114) and Lappert and Prokai 161) provide a comprehensive compilation and a systematic discussion of a wide variety of insertion reactions in two relatively recent (1965 and 1967) reviews. [Pg.90]

Another important line of investigation concerned the carbonyl insertion reaction, which was best defined in manganese chemistry (75, 16) and extended to acylcobalt tetracarbonyls by Heck and Breslow. The insertion may be through three-membered ring formation or by nucleophilic attack of an alkyl group on a coordinated CO group. [Pg.4]

Following our first report on the palladium-catalyzed reaction of vinyl triflates with olefins (Heck-type reaction), oxidative insertion of palladium(O) into the carbon-oxygen bond of easily available vinyl triflates ... [Pg.199]

Richard F. Heck The purpose of my paper has been to point out a reaction which appears more widely in the periodic table than most people realize. This general reaction is the insertion reaction and it might be used more widely to make some organometallic compounds which are not available now. [Pg.207]

We are currently trying to answer specifically the question of whether ir-bonded complexes do occur in certain cases where insertion reactions are observed. I think they do because I believe that the same factors which favor stabilization of this type of transition state will also tend to favor formation of 7r-bonded olefin complexes, which are only slightly removed from this. At the moment Bern Tinker is examining the insertion of olefins in mercuric complexes to see whether there is any indication of 7r-bonded intermediates. In his paper, Dr. Heck referred to some unpublished work relevant to this theme. I would certainly be interested in anything more he can tell us about that. [Pg.213]

R. J. Mawby Discussing the insertion reactions of methylmanganese penta-carbonyl, Dr. Heck writes, An important question, therefore, is unanswered. Does the coordinated carbonyl group insert before the new CO is added or does the incoming CO push the coordinated carbonyl into the acyl position ... [Pg.214]

I would like to ask Dr. Heck if he believes that the insertion reactions of CHsCo(CO)4 proceed by a similar two-step mechanism, or by a concerted mechanism ... [Pg.217]

Concerning Dr. Heck s expectation of a cis addition for the insertion reaction, we have found that the reverse reaction, an elimination, also results in a cis product. Thus, the isomerization of terminal olefins, catalyzed by metal ions which form ir-complexes, produces the cis-2 olefin first (4). Subsequently, the trans-2 olefin is formed, however, which requires explanation. Possibly the hydride is, in this case, pulled off the alkyl group by another coordinated olefin rather than by the metal itself. [Pg.218]

Transition metal catalyzed insertion reactions offer a convenient route for the preparation of five membered heterocyclic rings. Besides intramolecular Heck-couplings and CO insertion, examples of the intramolecular insertion of an acetylene derivative constitute the majority of this chapter. Although some of these processes involve the formation of a carbon-heteroatom bond, they are discussed here. [Pg.33]

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. [Pg.88]

As mentioned previously, the partially reduced forms of five membered heteroaromatic systems might act as olefins in insertion reactions. This behaviour is characteristic particularly of dihydrofuranes. The olefin insertion and the following / hydride elimination should in principle lead to a trisubstituted olefin, which is rarely observed, however. Typical products of this reaction are 2-aryl-2,3-dihydrofuranes. A characteristic example of such a reaction is presented in 6.54. The coupling of 4-iodoanisole and dihydrofurane led to the formation of the chiral 2-anisyl-2,3-dihydrofurane in excellent yield.83 The shift of the double bond, which leads to the creation of a new centre of chirality in the molecule, opens up the way for enantioselective transformations. Both intermolecular and intramolecular variants of the asymmetric Heck reaction have been studied extensively.84... [Pg.118]

Unlike common five and six membered heterocycles, purines rarely undergo coupling reactions including the insertion of an olefin or carbon monoxide. This behaviour is not well understood since Heck and CO insertion reactions are known to proceed on similar systems. [Pg.188]

Intramolecular versions of the Heck reaction are very useful for the construction of ring systems. The entropic advantage of having both coupling partners present in the same molecule increases the efficiency of the insertion reaction and leads to efficient reactions. Moreover the intramolecular version can be carried out on hindered substituted alkenes, whereas the intermolecular Heck reaction is largely restricted to monosubstituted alkenes. These reactions illustrate the syn stereochemistry of both the insertion reaction and the elimination. A number of multicyclic natural products have been synthesized using intramolecular Heck reactions to assemble the skeletons, and this has become a powerful synthetic tool for such compounds. [Pg.252]

Ruthenium(O) complexes such as Ru(COD)(COT) catalyze the dehydrohalo-genative coupling of vinyl halides with olefins to give substituted conjugated dienes in a Heck-type reaction [11]. Thus, alkenyl halides readily react with activated olefins to produce dienes 16 (Eq. 7). Oxidative addition of vinyl halide, followed by regioselective insertion of an electron-deficient olefin and by -hydrogen elimination leads to the diene. [Pg.5]

The arylation of activated alkenes with aryl halides in the presence of base was discovered by R. F. Heck in 1971 and is now one of the standard methods for C—C bond formation. The catalysts are mostly palladium or nickel phosphine complexes, which react via a succession of oxidative addition and insertion reactions, as shown in the following simplified cycle ... [Pg.1265]

Heck (149) has discussed several alkyne insertion reactions involving alkyl- and acyl-tetracarbonylcobalt complexes. Most reactions seem to give tricarbonyl-7T-(penteno-4-lactonyl)cobalt complexes and numerous other products. The reaction of CFaC CCFs with HCo(CO)4 results in reduction of the alkyne (85), but Co2(CO)e(HC2H) is formed (150) in the related reaction of HC—CH with HCo(CO)4 in methanol. [Pg.358]

Control over regioselectivity and stereoselectivity in the formation of new C-C a-bond is required to utilize the Heck reaction in complex molecule synthesis. For the intramolecular Heck reaction, the size of the ring formed in the insertion step controls the regiochemistry, with 5-exo and 6-exo cyclization favoured. A mixture of regioisomers is formed from Heck insertions of acyclic alkenes, whereas cyclic alkenes such as cycloalkenes as a Heck substrate produce a a-arkylpalladium(II) intermediate A, which has only one syn-P-hydrogen. Syn-elimination of the hydrogen provides only product B (Scheme 5.6). [Pg.197]

Another example of a tandem reaction, in this case an intramolecular Heck insertion followed by a r-allylpalladium displacement, comes from our opium alkaloid total synthesis project (Scheme 6-25) L53J. Treatment of diene aryl iodide 142 under forcing Heck cyclization conditions provided 143 in 56% yield in which the two final rings of the opium alkaloid skeleton are constructed in this one key step. [Pg.138]

See other pages where Heck reaction insertion is mentioned: [Pg.182]    [Pg.184]    [Pg.186]    [Pg.188]    [Pg.190]    [Pg.192]    [Pg.194]    [Pg.198]    [Pg.200]    [Pg.202]    [Pg.204]    [Pg.182]    [Pg.184]    [Pg.186]    [Pg.188]    [Pg.190]    [Pg.192]    [Pg.194]    [Pg.198]    [Pg.200]    [Pg.202]    [Pg.204]    [Pg.569]    [Pg.572]    [Pg.251]    [Pg.93]    [Pg.93]    [Pg.118]    [Pg.43]    [Pg.95]    [Pg.365]    [Pg.215]    [Pg.177]    [Pg.5645]    [Pg.140]    [Pg.397]    [Pg.397]   
See also in sourсe #XX -- [ Pg.371 ]

See also in sourсe #XX -- [ Pg.371 ]



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