For Michael addition

The combination of CsF with Si(OMe)4 58 is an efficient catalyst for Michael additions, e.g. of tetralone 130 to methacrylamide, followed hy cyclization of the addition product to the cyclic enamide 131 in 94% yield [67]. Likewise, addition of the lactone 132 to methyl cinnamate affords, after subsequent cyclization with tri-fluoroacetic acid, the lactam 133 in 58% yield [68] whereas < -valerolactam 134, with ethyl acrylate in the presence of Si(OEt)4 59/CsF, gives 135 in 98% yield [69]. Whereas 10mol% of CsF are often sufficient, equivalent amounts of Si(OEt)4 59 seem to be necessary for preparation of 135 [69] (Scheme 3.11). 

Beneficial Micro Reactor Properties for Michael Additions... 

The reactions [OS 52], [OS 53], [OS 54] and [OS 55] were chosen as test reactions among a wide class of reagents employed for Michael additions. 1,3-Dicarbonyl compounds were chosen because of their relatively high acidity since they enable one to use weak bases instead of strong bases such as sodium efhoxide. The latter is labile to moisture and can react with the Michael acceptor [8]. Diisopropylethyl-amine was chosen as a weak base. 

Alumina-supported KF is an effective reagent for Michael addition of nitroalkanes to electron-deficient olefins. Subsequent cycloalkylations afford cyclopropanes.37 However, the reaction of a, 3-unsaturated ketones with nitroalkanes in the presence of KF-A1203 in acetonitrile gives 4,5-dihydrofuranes (Eq. 7.39).40... 

Figure 4.24. Dodecakis(NCN-Pdn) dendrimer for Michael addition reaction.[34]...

T. Arai, H. Sasai, K. Aoe, K. Okamura, T. Date, M. Shibasaki, A New Multifunctional Heterobimetallic Asymmetric Catalyst for Michael Additions and Tandem Michael-Aldol Reactions, Angew. Chem. Int. Ed Engl 1996, 35,104-106. 

On the basis of encouraging work in the development of L-proline-DMSO and L-proline-ionic liquid systems for practical asymmetric aldol reactions, an aldolase antibody 38C2 was evaluated in the ionic liquid [BMIM]PF6 as a reusable aldolase-ionic liquid catalytic system for the aldol synthesis of oc-chloro- 3-hydroxy compounds (288). The biocatalytic process was followed by chemical catalysis using Et3N in the ionic liquid [BMIM]TfO at room temperature, which transformed the oc-chloro-(3-hydroxy compounds to the optically active (70% ee) oc, (3-epoxy carbonyl compounds. The aldolase antibody 38C2-ionic liquid system was also shown to be reusable for Michael additions and the reaction of fluoromethylated imines. 

The fluoride ion is an effective catalyst for Michael additions involving relatively acidic carbon compounds.85 The reactions can be done in the presence of excess fluoride, where the formation of the [F—H—F ] ion occurs, or by use of a tetraalkylammonium fluoride in an aprotic solvent. 

Electron-poor alkenes are suitable starting points for Michael additions. For example, the arylidene malononitrile 363 adds quantitatively to solid dimedone (255) upon milling at 80 °C followed by heating of the yellow powder to 100 °C. The initial Michael adduct 364 is not isolated, as it cyclizes in the solid state to give the pyrone 365 with 100% yield [107] (Scheme 58). The potentials for waste-free solid-state chemistry are manifold indeed and deserve further exploration. 

For Michael addition to nitroolefins, the lithio or titanium derivatives have been found to be useful [87AG(E)480], Hydrolysis gives a-amino--y-nitrocarboxylate esters (Scheme 69). 

Friedel-Crafts reactions are almost unknown in pyridine and azine chemistry. Direct electrophilic alkylation in the pyrimidine 5-position can be carried out on pyrimidines with at least two strongly donating groups, and more readily with three such groups. Thus, a-haloketones and a-bromocarboxylic esters can be used for direct alkylation of 6-aminouracils (118), for example in the formation of (119). The 5-position can also act as the nucleophile for Michael additions (e.g. 118 — 120, where a subsequent elimination occurs) (92AHC(55)129). For similar reactions in barbituric acids see (85AHC(38)229). 

If a thiochromanone is the starting system for sulfilimine preparation, another mode of reaction becomes available, namely ring expansion or contraction with insertion of the sulfilimine nitrogen (Scheme 8) (80TL533). The nature of the product is defined by the relative propensity for Michael addition (ring expansion) or thiooxime formation (ring contraction) to occur. 

Michael addition. DABCO is a particularly effective catalyst for Michael addition of /f-keto thiolesters to a,/ -unsaturated esters and ketones. The addition to enones provides an attractive route to 1,5-diketones that can undergo annelation to fused or... 

The use ofTaddol as an asymmetric phase-transfer catalyst has been adopted by other research groups. For example, Jaszay has used Taddol for Michael additions to a-aminophosphonate derivative 20, as shown Scheme 8.10 [22]. A range ofTaddol derivatives was investigated, but the best results were again obtained with the same catalyst employed by Belokon and Kagan. Thus, phosphoglutamic acid derivative 21 was obtained in 95% yield and with 72% ee when tert-butyl acrylate was employed as the Michael acceptor. 

Table I. Pseudo first-order rate constants for Michael addition of sulfur Nucleophiles (5 mM) to aciylic acid and acrylonitrile in seawater medium (salinity 35 and reaction pH 8.3 0.2)...

A task-specific ionic liquid, [bmIm]OH, has been introduced as a catalyst and as a reaction medium for Michael addition. The addition of open-chain 1,3-dicarbonyls to ,/Tunsaturatcd ketones gave the mono-addition products, whereas a,fi-unsaturated esters and nitriles afforded mainly bis-addition products.162... 

Copper(II) tetrafluoroborate Cu(BF4)2xH20 has been identified as a new and highly efficient catalyst for Michael addition of thiols to o ,/5-unsaturated carbonyl compounds under solvent-free conditions and in H20 at room temperature. The reactions are very fast and are completed within 2 min to 1 h. The rate of thiol addition is dependent on the steric hindrance at the /3-carbon of the o ,/3-unsaturated carbonyl substrate. In the case of chalcones, the reactions are best carried out in MeOH as solvent.237... 

Among the best specific enol equivalents for Michael addition are silyl enol ethers that are rather beyond the scope of this book but are treated in detail in Strategy and Control. So the silyl enol ether 54 of the ester 53 adds to the enone 55 with Lewis acid catalysis to give a reasonable yield of the ketoester 56 considering that two quaternary centres are joined together.6... 

Michael addition.2 This triflate is an effective catalyst for Michael addition of enol silyl ethers to a,P-enones such as methyl vinyl ketone to provide adducts in 60-75% yield, equation (I). This variation is useful in Robinson annelations. 

Table 3 Some catalysts for Michael addition and reaction conditions ...

Michael addition to a., -enoates- Aluminum ion-exchanged montmorillonite (Al-Mont1) is a very effective catalyst for Michael addition of silyl ketene acetals or silyl enol ethers to a,(3-enoates. In fact this heterogeneous catalyst is more effective than Lewis acids, which are generally required in a stoichiometric amount. It also facilitates Michael addition to a,p-enones.2 Examples ... 

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