Conjugate activated olefin

The mechanism of the cyanide- and thioazolium ion-catalyzed conjugate addition reactions is considered to be analogous to the Lapworth mechanism for the cyanide-catalyzed benzoin condensation. Thus the cyano-stabilized carbanion resulting from deprotonation of the cyanohydrin of the aldehyde is presumed to be the actual Michael donor. After conjugate addition to the activated olefin, cyanide is eliminated to form the product and regenerate the catalyst. 

The hydrocyanation of conjugated carbonyl compounds is a related reaction.83 Very often such a conjugated addition is carried out in aqueous conditions. For example, in the pioneer work of Lapworth, hydrocyanation of activated olefins was carried out with KCN or NaCN in aqueous ethanol in the presence of acetic acid (Eq. 10.36).84... 

B-alkylcatecholboranes, prepared by rhodium(I)-catalyzed hydroboration of alkenes, are suitable radical precursors for conjugate addition to activated olefins. This procedure is particularly useful for the control of the regio- and... 

Scheme 37 Radical chain mechanism for the conjugate addition of B-alkylcatecholboranes to activated olefins (R = alkyl group EWG = electron withdrawing group R O =Me0C(0)0, MeO )...

The conjugated addition of aryl bromides to activated olefins has... 

The amount of cobalt complex in this step influences the reaction rate, but not the yields. Indeed, with only 0.3 equivalent of cobalt catalyst, the arylzinc compound is consumed after 24 h instead of 10 h when 1 equivalent was used. An excess of the activated olefin is required to optimize the yield of the conjugate addition. Under these conditions, this process has been studied with various aryl halides (X = Br, Cl) and activated olefins. Yields range from 40 to 80%. 

Allenes926 and ketenes927 react with activated olefins and alkynes. Ketenes give 1,2 addition, even with conjugated dienes.928 Ketenes also add to unactivated olefins if sufficiently long reaction times are used.929 Allenes and ketenes also add to each other.930... 

The 1,4-addition (or conjugate addition) of resonance-stabilized carbanions. The Michael Addition is thermodynamically controlled the reaction donors are active methylenes such as malonates and nitroalkanes, and the acceptors are activated olefins such as a,P-unsaturated carbonyl compounds. 

In general, the zinc promoted condensation of alkyl halides with aliphatic aldehydes and ketones gives only poor results.2 In contrast good results are obtained when one of the reactants is unsaturated. Thus the addition of an allylic group to a carbonyl compound, or the conjugate addition of an alkyl moiety to an activated olefin, occur in excellent yields. Some corrections to this schematic view will be given in the following discussion. 

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. 

Keywords Organozinc, Organolithium, Grignard reagent, Copper, Conjugate addition, Nucleophilic addition, Alkylation, Activated olefin, Enone, Nitroalkene, p-Substituted carbonyl... 

Suppl.to Chapter 31.1 Conjugate Addition of Organometallics to Activated Olefins... 

The efficient conjugate addition-type arylation of activated olefins has not been achieved by the use of copper-catalyzed reactions. This situation was circum-... 

It is remarkable and impressive to find that stereochemistry in the conjugate addition of a radical species to an activated olefin is controlled by the chiral bisox-azoline ligand 98 to give a conjugate addition product 100 from 99 in quite high ee and diastereoselectivity (Scheme 12) [58]. Radical trapping by hydrogen abstraction was also shown to be possible in the reaction of 99 to 103, which was controlled by the combination of a chiral alcohol 101 and achiral oxazolidinone 102 [59]. 

On the basis of this palladium-mediated Michael addition cyclization process, a novel two-step synthetic entry into functionalized furan derivatives 67 has also been devised (Scheme 28). Substitution of benzylidene (or alkyli-dene) malonates for their ethoxymethylene analog (65) as activating olefins gave rise to the formation of the corresponding 2-ethoxy-4-arylidene tetrahy-drofurans 66. An in situ addition of potassium ferf-buloxidc induced a decar-boxylative elimination reaction which was followed by an isomerization of the exocyclic double bond. The entire process successively involved a conjugate addition, a palladium-catalyzed cyclization-coupling reaction, a base-induced eliminative decarboxylation, and finally, a double bond isomerization [73]. 

A related one-pot three component coupling reaction leading to allyli-dene tetrahydrofuran derivatives 80 and which combines a conjugate addition of a propargyl alcohol with an activated olefin and an in situ palladium-catalyzed carbopalladation-cyclization in the presence of a large excess of allyl chloride has been recently developed by Lu and Iiu (Scheme 31) [77]. The cyclization process is here initiated by addition of a catalytic amount of Pd(OAc)2 and in marked contrast with the above-discussed reactions, a catalytic cycle involving divalent palladium proceeds in the reaction. In this process, the ester enolate formed in the Michael addition undergoes... 

For the sake of brevity, such important transformations as the conjugate addition of lithium enolates on activated olefins or the halogenation, amination, oxidation. .. of enolates have not been considered here. Each of these reactions has been the object of considerable developments lately, in particular for their asymmetric versions, and giving even short accounts about the state of the art would have been extremely space-consuming. 

The reactions in this section cover the conjugate (Michael) addition of various lithiated nucleophiles to activated olefins such as enones and enoates. Lithium enolates are formed as intermediates during the addition process. They can be treated as such and trapped, for instance, by an electrophile to provide ketones or esters substituted both in the a and positions. We will focus only on the most important information relevant to the intermediate enolates, and those are rarely discussed in the literature on the Michael addition. The reader can advantageously consult Chapter 14 of the first part of this volume133, which is entirely dedicated to the organolithium additions to double bonds, for a more extensive coverage of the topic. 

Renaud and coworkers have also recently found that related TBDMS-protected B-alkylboronate esters are suitable radical (see Radicals) precursors for conjugate addition to activated olefins such as methyl acrylate (equation 12). Catalyzed hydroborations gave the 1,3-addition products with regioselectivity opposite to those obtained in uncatalyzed reactions. 

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