Michael reactions oxygen nucleophiles

The Michael aclcliQon of oxygen-nucleophiles followed by subsequent cyclizadon or cycloaddidon provides an important method for the preparadon of oxygen-heterocycles such as tetrahydrofurans For example, 3-nitro-2//-chromenes bearing various snbsdtnents are prepared by the reaction of snbsdtnted sahcylaldehydes with nitro ilkenes fEq 4 14 ... 

Hassner and coworkers have developed a one-pot tandem consecutive 1,4-addition intramolecular cycloaddition strategy for the construction of five- and six-membered heterocycles and carbocycles. Because nitroalkenes are good Michael acceptors for carbon, sulfur, oxygen, and nitrogen nucleophiles (see Section 4.1 on the Michael reaction), subsequent intramolecular silyl nitronate cycloaddition (ISOC) or intramolecular nitrile oxide cycloaddition (INOC) provides one-pot synthesis of fused isoxazolines (Scheme 8.26). The ISOC route is generally better than INOC route regarding stereoselectivity and generality. 

Like oxygen nucleophiles, phosphorus and selenium nucleophiles have been employed rarely in Michael additions to activated dienes. The reaction of phosphites with acceptor-substituted dienes was studied by several Russian groups116-118 again, 1,6-adducts and 2 1 addition products were formed (equation 37). The acid-catalyzed reaction of selenourea with sorbic acid was also reported to provide a 1,6-addition product119 (equation 38). 

The Michael addition of nucleophiles to coumarins catalyzed by solid bases provides an interesting approach to the synthesis of 4-substituted 3,4-dihydrocumarins, because with the conventional Michael catalysts the alkaline hydrolysis of the 8-lactone predominates (Scheme 44). Results were obtained when the Michael addition of diethyl malonate to coumarin was catalyzed by the activated Ba(OH)2 292). An unusual 1,2-addition-elimination process at the C = 0 bond was observed. The mechanism of this reaction was explained on the basis of the microcrystalline structure of the catalyst. It was suggested that the rigid coumarin molecule interacts with the Ba ions through the lone-pair electrons of both oxygen atoms of the... 

For carbon nucleophiles sequential addition of 2-potassio-2-nitropropane and oxygen to 4-arylidene-2-phenyl-5(47/)-oxazolones 623 has been reported (Scheme 7.200). The process involves a Michael reaction of the 2-nitropropane anion followed by reaction with molecular oxygen and elimination of nitrous acid to yield 2-aryl butenoic acid imides 626. 

It is interesting to note that the oxa-analogous Michael addition was reported for the first time in 1878 by Loydl et al. [19] in their work on the synthesis of artificial malic acid, which was five years ahead of the discovery of the actual Michael reaction described first by Komnenos [20], Claisen [21], and later Michael in 1887 [22] as one of the most important methods for C—C bond formation. In continuation of the early work on the oxa-Michael addition [23], the inter- and intramolecular additions of alkoxides to enantiopure Michael acceptors has been investigated, leading to the diastereo- and enantioselective synthesis of the corresponding Michael adducts [24]. The intramolecular reaction has often been used as a key step in natural product synthesis, for example as by Nicolaou et al. in the synthesis of Brevetoxin B in 1989 [25]. The addition of oxygen nucleophiles to nitro-alkenes was described by Barrett et al. [26], Kamimura et al. [27], and Brade and Vasella [28]. 

Reactions of carbene complexes with phosphorous compounds are topics of current research.164-167 (l-Alkynyl)carbene complexes (CO)5M= C(OEt) —C=CR 1 (M = Cr, W R = Ph, r-Bu, SiMe3) readily add tertiary phosphanes PPhR2 (R = Ph, Me) and form stable zwitterionic phosphonium allenide complexes (CO)5M —C(OEt)=C=C(R)—P+PhR2 145, which have been characterized by X-ray diffraction (Scheme 57).55 In previous studies on Michael-type additions of nitrogen and oxygen nucleophiles to (l-alkynyl)carbene complexes 1, zwitterionic allenide complexes of type 145 have been postulated as intermediates.21,23,503 62 112,168,169 Unambiguous structural evidence of the tendency to form such intermediates is given by isolation of a stable zwitterionic adduct, such as compound 145. Zwitterionic... 

The Michael reaction is addition of a carbon nucleophile to the /3 position of an a,/3-unsaturated carbonyl compound or its equivalent. It also may be called a 1,4-addition reaction (the carbonyl oxygen is counted as 1 and the )3-carbon as 4). The conjugation of the v bond with thp carbonyl group imparts positive character to the /3 position, making it susceptible to reaction with a nucleophile. The product of this reaction, an enolate ion, also is stabilized by resonance. 

Abstract Progress in the field of metal-catalyzed redox-neutral additions of oxygen nucleophiles (water, alcohols, carboxylic acids, and others) to alkenes, alkynes, and allenes between 2001 and 2009 is critically reviewed. Major advances in reaction chemistry include development of chiral Lewis acid catalyzed asymmetric oxa-Michael additions and Lewis-acid catalyzed hydro-alkoxylations of nonacti-vated olefins, as well as further development of Markovnikov-selective cationic gold complex-catalyzed additions of alcohols or water to alkynes and allenes. 

The conjugate addition of oxygen nucleophiles to acceptor-substituted olefins is the oxa-Michael reaction (Scheme 15). The term is derived from heteroatom replacement nomenclature, meaning that oxygen takes the place of a CH2 unit (RCH2 RO ). Oxa-Michael reactions have been known for many years and are often catalyzed by bases or acids [7]. Catalysis by metals has been reported sporadically in the older literature, e.g. for the case of alcohol addition to vinyl ketones with a Nieuwland catalyst (HgO, BF3-OEt2, ROH) [75-77]. A patent describes a PdCl2-catalyzed addition of alcohols to acrolein or methacrolein [78]. 

Carbanions frequently add to the carbonyl double bond. The aldol reaction, Claisen reaction, Dieckmann reaction, Michael reaction, and Knoevenagel condensation are familiar examples of carbanions (as enolates) undergoing nucleophilic addition to carbon-oxygen double bonds. 

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