Nitriles Michael addition

Neopentyl glycol, polyesters use, 494 Nickel, MA bisadduct, 212 Nickel carbonyl, MA complex, 212 Nickel chloride, MA distillation additive, 22 Nickel oxide, oxidation catalyst, 31, 36 Nicotinic acid, use in polyesters, 490 Nitrile imines, dimethyl fumarate adduct, 225 Nitrile oxides, MA adducts, 225 Nitriles, Michael addition to maleates, 64 Nitrile sulfides MA adducts, 225 maleimide adducts, 227 p-Nitroaniline, permaleic acid oxidation, 77 Nitrobenzene, 180 ene reaction solvent, 166 Friedel-Crafts acylation solvent, 93, 97 2-Nitrofuran, 127... 

The addition of active methylene compounds (ethyl malonate, ethyl aoeto-acetate, ethyl plienylacetate, nltromethane, acrylonitrile, etc.) to the aP-double bond of a conjugated unsaturated ketone, ester or nitrile In the presence of a basic catalyst (sodium ethoxide, piperidine, diethylamiiie, etc.) is known as the Michael reaction or Michael addition. The reaction may be illustrated by the addition of ethyl malonate to ethyl fumarate in the presence of sodium ethoxide hydrolysis and decarboxylation of the addendum (ethyl propane-1 1 2 3-tetracarboxylate) yields trlcarballylic acid ... 

Recently, the Michael addition of the optically active Q ,y-disubstituted tetronic acids 146c,e with a variety of Q ,/3-unsaturated aldehydes, ketones, esters, and nitriles was studied (Scheme 53) (99H1321). 

Enamines react with acceptor-substituted alkenes (Michael acceptors) in a conjugate addition reaction for example with o ,/3-unsaturated carbonyl compounds or nitriles such as acrylonitrile 8. With respect to the acceptor-substituted alkene the reaction is similar to a Michael addition ... 

Fusion of an all cyclic ring onto the piperidine so as to form a perhydroisoquinoline is apparently consistent with analgesic activity. Synthesis of this agent, ciprefadol (68), starts with the Michael addition of the anion from cyclohexanone 56 onto acrylonitrile (57). Saponification of the nitrile to the corresponding acid ( ) followed by Curtius rearrangement leads to isocyanate Acid... 

The catalytic conditions (aqueous concentrated sodium hydroxide and tetraalkylammonium catalyst) are very useful in generating dihalo-carbenes from the corresponding haloforms. Dichlorocarbene thus generated reacts with alkenes to give high yields of dichlorocyclopropane derivatives,16 even in cases where other methods have failed,17 and with some hydrocarbons to yield dicholromethyl derivatives.18 Similar conditions are suited for the formation and reactions of dibromocar-benc,19 bromofluoro- and chlorofluorocarbene,20 and chlorothiophenoxy carbene,21 as well as the Michael addition of trichloromethyl carbanion to unsaturated nitriles, esters, and sulfones.22... 

Es kann ferner von Phenyl-acetonitril, Cyanessigsaure-athylester und Acrylsaure-nitril ausgegangen werden. lm letzteren Fall wird die Homologisierung durch Michael-Addition eincr C—H-aciden Verbindung an das erhal-tene 4,4,6-Trimethyl-2-vinyl-5,6-dihydro-4H-l,3-oxazin durchgefiihrt1. 

Although the unsaturated nitrile oxides 124 can be prepared via the aldoxime route (see Scheme 8), the older procedure suffers from the disadvantage that a tenfold excess of allyl alcohol and two additional steps are required when compared to Scheme 15. Therefore, unsaturated nitro ether 123 that can be prepared by condensation of an aldehyde 120 and a nitro alkane followed by Michael addition of alcohol 122, was a useful precursor to nitrile oxide 124 [381. The nitrile oxide 124 spontaneously cyclized to ether 125. This procedure is particularly suitable for the synthesis of tetrahydrofurans (125a-h) and tetrahydropyrans (125i-k) possessing Ar substituents in 72-95% yield (Table 12). The seven-membered ether 1251 was obtained only in 30% yield on high dilution. The acetylenic nitro ether 126 underwent INOC reaction to provide the isoxazole 127. 

As we found that furan and thiophene substituted oximes can be used as substrates for the INOC reactions (Eq. 5) [29b] similarly, furan substituted nitro alkane 134 is also a good substrate for INOC reactions (Eq. 13) [40]. The furfuryl derivative 134, prepared via Michael addition of furfuryl alcohol to 4-methoxy- -nitrostyrene, was subsequently transformed without isolation of the intermediate nitrile oxide 135 to the triheterocyclic isoxazoline 136 as a 5 1 mixture of isomers in high yield. 

In the case of nitronates possessing ester or nitrile moieties as terminal olefin substituents, tandem Michael addition to produce substituted furans 174,175 occurred faster than trapping of the nitronate anion by TMSCl (Eq. 17). 

The final example of a domino process under high pressure, to be discussed in this chapter, is a combination of a Horner-Wittig-Emmons (HWE) reaction with a Michael addition developed by Reiser and coworkers [5]. Hence, reaction of a mixture of an aldehyde such as 10-18, a phosphonate 10-19 and a nucleophile 10-20 in the presence of triethylamine at 8 kbar led to 10-21. By this method, (3-amino esters, 3-thio esters and 3-thio nitriles can be prepared in high yield (Scheme 10.4). Many of these transformations do not occur under standard conditions, thereby underlining the importance of high pressure in organic chemistry. 

Synthesis of thiopheno[3,4-c]isoxazoline is shown in Eq. 4.4, in which the Michael addition of allyl thiol to 3-nitro enones and subsequent nitrile oxide cyclization are involved.7... 

A new three-component approach to the highly substituted 2,5-dihydro-l,2,4-oxadiazoles 359 has been reported from the reaction of nitriles 354 under mild conditions with iV-alkylhydroxylamines 355 in the presence of electron-deficient alkynes 356 (Scheme 60) <20050L1391>. This synthesis is proposed to proceed via the initial formation of the alkyl or arylamidoximes 357, which then undergo a sequential double Michael addition to the electron deficient alkyne. The intermediate alkyl or arylamidoximes 357 can be isolated and then reacted with the alkyne to produce the product. The initial Michael adduct 358 is stable in cases where R2 is H. 

Lower order cyanocuprates RCu(CN)Li displayed again a different behavior although they usually do not react with acceptor-substituted enynes, the cyanocuprate tBuCu(CN)Li nevertheless underwent anti-Michael additions to 2-en-4-ynoates (e.g. 70) and nitriles affording allenes of type 73 (Scheme 2.26) [51]. Unfortunately, an adequate interpretation of the abnormal behavior of this particular cuprate is still lacking. 

So-called lower order cyanocuprates RCu(CN)Li do not generally react with acceptor-substituted enynes. An exception is the cuprate t-BuCu(CN)Li which undergoes anti-Michael additions with 2-cn-4-ynoates and nitriles (equation 61)151. The mechanistic aspects of this very unusual reaction are unknown radical intermediates and electron transfer steps have not been found. 

PPI dendrimers are synthesized via the reaction sequence as shown in Fig. 2. This repetitive reaction sequence involves a Michael addition of two equivalents of acrylonitrile to a primary amine, followed by hydrogenation of the nitrile groups to primary amines. Commercially available PPI dendrimers are usually terminated with amine groups. 

During the coverage period of this chapter, reviews have appeared on the following topics reactions of electrophiles with polyfluorinated alkenes, the mechanisms of intramolecular hydroacylation and hydrosilylation, Prins reaction (reviewed and redefined), synthesis of esters of /3-amino acids by Michael addition of amines and metal amides to esters of a,/3-unsaturated carboxylic acids," the 1,4-addition of benzotriazole-stabilized carbanions to Michael acceptors, control of asymmetry in Michael additions via the use of nucleophiles bearing chiral centres, a-unsaturated systems with the chirality at the y-position, and the presence of chiral ligands or other chiral mediators, syntheses of carbo- and hetero-cyclic compounds via Michael addition of enolates and activated phenols, respectively, to o ,jS-unsaturated nitriles, and transition metal catalysis of the Michael addition of 1,3-dicarbonyl compounds. ... 

A remarkably simple fused indole devoid of the traditional side chains is described as an antidepressant agent. Michael addition of the anion from indole ester 119 to acrylonitrile affords the cyanide 120. Selective reduction of the nitrile leads to the ami noester 121. This is then cyclized to the lactam (122). Reduction of the... 

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