Alkene activated

Although reaction of carbohydrates with such activated alkenes as acrylonitrile and methyl vinyl sulfone has industrial importance, the 

On treatment with acrylonitrile in 2% aqueous sodium hydroxide at 0°, tetrahydropyran-2-yl /3-D-glucopyranoside gave the 2-, 3-, 4-, and 6-0-(2-cyanoethyl) ethers (together with some diethers) in yields that, on extrapolation to zero reaction, showed3 9 k2 k3 k4 k6 to be in the ratios of 3 1 2 8 these values represent equilibrium, not rate, constants. The tendency for substitution at 0-6 is a consequence of the greater stability of an ether derived from a primary (compared to a secondary) hydroxyl group, as a result of lower steric interactions in the former. 

The reaction between cellulose and acrylamide was studied by quantitative, chromatographic separation of the substituted D-glucoses obtained on acid hydrolysis of the reaction product,320 followed by an analysis by Spurlin s method.249 Although, apparently, no check was made on the stability of the ethers to the conditions of hydrolysis, it might be expected that the ethers would isomerize only under basic conditions. The ratios of the relative equilibrium-constants for reaction at 0-2, 0-3, and 0-6 were 9 1 19, and these are attributable to the high, relative stability of the primary ether, together with the low reactivity of 0-3, also observed in rate-controlled reactions. 

The action of diazomethane in aqueous 1,2-dimethoxyethane on 4-methoxy-l-/3-D-ribofuranosyl-2(lf/)-pyrimidinone gave, after purification, the corresponding 2 -methyl ether in 37% yield.333 N.m.r. spectroscopy showed that the crude mono-O-methyl fraction contained the 2 - and 3 - isomers in the ratio of 7 2. The 2 -methyl ether proved to be a versatile intermediate, as acid hydrolysis yielded 2 -0-methyluridine, whereas reaction with ammonia or methylamine 

Bis-allylation of unsaturated compounds can be achieved by using amphiphilic bis-H-allylpalladium complexes 36 generated from allylstannanes and allyl chlor- 

Reactions Involving K-Allyl Palladium Species as Intermediates 

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Reactive halogen compounds, alkyl haUdes, and activated alkenes give quaternary pyridinium salts, such as (12). Oxidation with peracids gives pyridine Akoxides, such as pyridine AJ-oxide itself [694-59-7] (13), which are useful for further synthetic transformations (11). 

The Michael-type addition of maleic hydrazide and other pyridazinones to activated alkenes, such as methyl acrylate, acrylonitrile, methyl vinyl ketone and other a,/3-unsatu-rated carbonyl compounds, results in the formation of mono-lV-substituted products. 

DIELS - ALDER Cyclohexene synthesis A 2 Thermal cycloaddition between a diene and an activated alkene or alkyrte, sometimes catalyzed by Lewis acids. 

With 4-iodoalkynes, the intermediate radicals can be trapped by activated alkenes and lead to cyclized products. ... 

Recently, Burger devised an improved method of carrying out mild, regiospecific cyclizations that involve an intermediate that acts as a synthon for a nitrile ylide of HCN [47 (equation 48). With this methodology, cycloadditions with activated alkenes, alkynes, and azo compounds were earned out [47] (equation 49). All such reported reactions were regiospecific and had the same orientational preference... 

The Boger pyridine synthesis involves the reaction of triazine 1 with activated alkene 2 in a hetero-Diels-Alder fashion. The intermediate bicyclic species 3 is unstable and a facile cycloreversion takes place due to the loss of nitrogen gas to afford the appropriately substituted pyridine derivative 4. 

The Baylis-Hillman reaction is usually carried out under mild conditions (0°C or room temperature). The reaction time varies from a few minutes to even days. With the proper catalyst, good yields are possible. In the absence of an aldehyde or ketone as the electrophilic component, a dimerization of the activated alkene can take place under the influence of the catalyst, as also observed as a side reaction under the usual reaction conditions ... 

The thermal [2 + 2] cycloaddition is limited to certain activated alkenes. For instance tetrafluoroethylene, tetrachloroethylene, allenes e.g. 17, ketenes and ena-mines can form cyclic dimers or react with other alkenes ... 

The method is quite useful for particularly active alkyl halides such as allylic, benzylic, and propargylic halides, and for a-halo ethers and esters, but is not very serviceable for ordinary primary and secondary halides. Tertiary halides do not give the reaction at all since, with respect to the halide, this is nucleophilic substitution and elimination predominates. The reaction can also be applied to activated aryl halides (such as 2,4-dinitrochlorobenzene see Chapter 13), to epoxides, " and to activated alkenes such as acrylonitrile. The latter is a Michael type reaction (p. 976) with respect to the alkene. 

Arylation of Activated Alkenes by Diazonium Salts Meerwein Arylation... 

Free-radical addition of an aryl group and a hydrogen has been achieved by treatment of activated alkenes with a diazonium salt and TiCls. ... 

Addition of carboxylic esters to activated alkenes (Michael)... 

Imidazole and its derivatives continued to play an important role in asymmetric processes. Optically active pyrroloimidazoles 26 were prepared by the cycloaddition of homochiral imidazolium ylides with activated alkenes <96TL1707>. This reaction was used in the enantioselective preparation of pyrrolidines <96TL1711>. A review of the use of chiral imidazolidines in asymmetric synthesis was published <96PAC531> and the preparation and use of a new camphor-derived imidazolidinone-type auxiliary 27 was reported < 6TL4565> <96TL6931>. 

Hydroamination of activated alkenes has been reported with complexes 91-93 (Fig. 2.15). For example, 91 catalyses the hydroamination of methacrylonitrile (X = CN in Scheme 2.13) by a range of secondary amines (morpholine, thiomorpholine, piperidine, iV-methylpiperazine or aniline) in good to excellent conversions (67-99%) and anfi-Markovnikov regioselectivity (5 mol%, -80°C or rt, 24-72 h). Low enantioselectivies were induced ee 30-50%) depending on the amine used and the reaction temperature [79]. 

Fig. 2.17 Nickel and copper complexes as catalysts for the hydrothiolation of alkynes and activated alkenes...

In contrast to a, -ethylenic ketones or even a, -ethylenic sulfones, a, ) -ethylenic sulfoxides generally are not sufficiently electrophilic to undergo successful nucleophilic j8-addition . a-Carbonyl-a, j8-ethylenic sulfoxides, however, are potent, doubly activated alkenes which undergo rapid and complete -addition of various types of nucleophiles even at — 78 °C. A brief account summarizing this area is available . The stereochemical outcome of such asymmetric conjugate additions to enantiomerically pure 2-sulfmyl 2-cycloalkenones and 2-sulfinyl-2-alkenolides has been rationalized in terms of a metal-chelated intermediate in which a metal ion locks the -carbonyl sulfoxide into a rigid conformation (36 cf. 33). In this fixed conformation, one diastereoface of the cyclic n... 

The catalytic enantioselective addition of vinylmetals to activated alkenes is a potentially versatile but undeveloped class of transformations. Compared to processes with arylmetals and, particularly alkylmetals, processes with the corresponding vinylic reagents are of higher synthetic utility but remain scarce, and the relatively few reported examples are Rh-catalysed conjugate additions. In this context, Hoveyda et al. reported very recently an efficient method for catalytic asymmetric allylic alkylations with vinylaluminum reagents that were prepared and used in Thus, stereoselective reactions... 

The Wacker Reaction and Related Oxidations. An important industrial process based on Pd-alkene complexes is the Wacker reaction, a catalytic method for conversion of ethene to acetaldehyde. The first step is addition of water to the Pd(n)-activated alkene. The addition intermediate undergoes the characteristic elimination of Pd(0) and H+ to generate the enol of acetaldehyde. 

The use of Lewis acid catalysts greatly expands the synthetic utility of the carbonyl-ene reaction. Aromatic aldehydes and acrolein undergo the ene reaction with activated alkenes such as enol ethers in the presence of Yb(fod)3.35 Sc(03SCF3)3 has also been used to catalyze carbonyl-ene reactions.36... 

In addition to the use of hydrogen directly, hydrogen generated from CO and water (water-gas shift reaction) is also very effective in hydrogenating activated alkenes under basic conditions (Eq. 10.3).5... 

Rhodium-catalyzed Heck-type coupling of boronic acids with activated alkenes was carried out in an aqueous emulsion.82 The couplings between arylboronic acids and activated alkenes catalyzed by a water-soluble tm-butyl amphosrhodium complex were found to progress at room temperature to generate Heck-type products with high yields and excellent selectivity. It was necessary to add two equivalents of the... 

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