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Sulfonyl transfer reactions

Thus, there is suggestive evidence that both stepwise intermediates for sulfonyl transfer reactions may be relatively high-energy species. Now we will try to estimate the energetics for such species first for the simplest parent cases, even though they... [Pg.27]

Reactivity ratios for the copolymerization of AN with 7 in methanol at 60 °C, proved to be equal to rx AN= 3,6 0,2 and r%n = 0 0,06, i.e., AN is a much more active component in this binary system. The low reactivity of the vinyl double bond in 7 is explained by the specific effect of the sulfonyl group on its polarity26. In addition to that, the radical formed from 7 does not seem to be stabilized by the sulfonyl group and readily takes part in the chain transfer reaction and chain termination. As a result of this, the rate of copolymerization reaction and the molecular mass of the copolymers decrease with increasing content of 7 in the initial mixture. [Pg.106]

Normally, reactive derivatives of sulfonic acids serve to transfer electrophilic sulfonyl groups259. The most frequently applied compounds of this type are sulfonyl halides, though they show an ambiguous reaction behavior (cf. Section III.B). This ambiguity is additionally enhanced by the structure of sulfonyl halides and by the reaction conditions in the course of electrophilic sulfonyl transfers. On the one hand, sulfonyl halides can displace halides by an addition-elimination mechanism on the other hand, as a consequence of the possibility of the formation of a carbanion a to the sulfonyl halide function, sulfenes can arise after halide elimination and show electrophilic as well as dipolarophilic properties. [Pg.195]

For acyl transfer, phosphoryl transfer, and sulfonyl transfer, the primary kind of evidence in favor of concerted mechanisms for some reactions is a linear Bronsted plot of log k versus for a range of nucleophiles, spanning p/ir/ = - p r s = 0, coupled... [Pg.26]

Ruthenium complexes are capable of catalyzing halogen atom transfer reactions to olefins. This has been illustrated in the enantioselective atom transfer reactions of alkane and arene-sulfonyl chlorides and bro-motrichloromethanes to olefins using chiral ruthenium complexes. Moderate ee s up to 40% can be achieved for these transformations [74-77]. These specific reactions are believed to follow a radical redox transfer chain process. [Pg.138]

With a range of methods available for the formation of 1,3-dicarbonyl compounds, the dicarbonyl diazomethanes can be readily prepared via a simple diazo transfer reaction with sulfonyl azide. This has made a vast array of dicarbonyl diazomethanes available, which enhances the versatility in organic synthesis. A selection of examples from recent literature to illustrate the versatility of the cyclopropanation using dicarbonyl diazomethane in the construction of natural products as well as other biologically active compounds is described below. [Pg.677]

The diazo transfer reaction with sulfonyl azides has been extensively used for the preparation of diazo compounds with two electron-withdrawing groups (equation 1 ).28 Toluenesulfonyl azide (13a)29 is the standard reagent used, but due to problems of safety and ease of product separation, several alternative reagents have been developed recently. n-DodecylbenzenesuIfonyl azide (13b)30 is very effective for the preparation of crystalline diazo compounds, while p-acetamidobenzenesulfonyl azide (13c)31 or naph-thalenesulfonyl azide (13d)30 are particularly useful with fairly nonpolar compounds. Other useful reagents are methanesulfonyl azide (13e)32 and p-carboxybenzenesulfonyl azide (13f).33... [Pg.1033]

The importance of a-diazo ketones as synthetic intermediates has led to the development of a number of general methods for their preparation.5 Particularly popular approaches include the acylation of diazo alkanes and the base-catalyzed "diazo group transfer" reaction of sulfonyl azides with 8-dicarbonyl compounds.6-7 While direct diazo transfer to ketone enolates is usually not a feasible process,8-9 diazo transfer to simple ketones can be achieved in two steps by employing an indirect deformylative diazo transfer strategy in which the ketone is first formylated under Claisen condensation conditions, and then treated with a sulfonyl azide reagent such as p-toluenesulfonyl azide.6a,6c,9,i0,11... [Pg.137]

The transformation of an active CH compound into the corresponding diazo derivative with -toluenesulfonyl azide has been designated a diazo transfer reaction and possesses a variety of preparative uses. The method has been useful for the syntheses of diazo derivatives of cyclopentadiene, 1,3-dicar-bonyl compounds, 1,3-disulfonyl compounds,1,3-keto-sulfonyl compounds, ketones, " carboxylic acid esters, and /3-keto imines. Further reaction of these diazo intermediates can lead to azo compounds,"- " 1,2,3-triazoles, and pyrazolinones. ... [Pg.39]

Diimide occurs only as an unstable intermediate in the hydrolysis of azodi-carboxylic acid, in the alkaline cleavage of benzene sulfonyl hydrazide, hydroxyl-amine-O-sulfonic acid and chloramine, in the oxidation of hydrazine, and in several other organic decomposition reactions . At room temperature it readily undergoes decomposition, disproportionation, and in the presence of symmetrical multiple bonds (like the ones in olefins) hydrogen transfer reactions ... [Pg.569]

The chemistry of sulfones is dominated by the reactions of sulfonyl carbanions. The sulfone group has a unique ability to facilitate deprotonation of attached alkyl, alkenyl and aryl groups and will permit multiple deprotonation to yield polyanions. These properties, combined with the relative intertness of the sulfone (S02) group to nucleophilic attack, have made the S02 group the first choice for stabilisation of carbanions and account for the extensive application of sulfones in synthesis. Sulfonyl carbanions can be generated and reacted under a wide variety of conditions extending from aqueous phase transfer reactions using sodium hydroxide as base to the use of alkyllithiums in polar aprotic solvents. The reactivity of sulfonyl carbanions depends on the nature of the metal counterion (Li+, Na+, K+ and Mg2+ are the most important ones) and the presence of additives, e.g. TMEDA, HMPA and Lewis acids. [Pg.202]

The most widely used application of sulfonyl azides is in the azidation of enolates and other stabilized carbanions. The main challenge here is the avoidance of the diazo transfer reaction, which leads to diazo compounds and thus makes a diastereoselective animation impossible. Addition of the enolates to the sulfonyl azide proceeds rapidly at low temperatures (—78° or lower) to give the mesomeric ion 42 (Eq. 30).318 Reagents 41, the counter ion M+, the solvent, and the quenching reagent all influence the subsequent partition between azide and diazo compound. For enolates of esters (39) and N-acyloxazolidinoncs (40) the preferred reagent is trisyl azide (41a) 4-nitrobenzenesulfonyl azide (41c) promotes diazo transfer, and tosyl azide (41b) usually leads to mixtures of the two types of products. For ester enolates 39, either lithium or potassium as the... [Pg.24]

Diazo transfer to pyrazolidone (39) using azidinium salt (38) affords diazo pyrazolidone (41) and imine 40 this method has proved superior to the aryl sulfonyl azide reactions in cases where azo coupling occurs. [Pg.661]

Tricyclodecanone (85) is formylated to 86, then converted to the diazoketone (87) via deformylation diazo transfer reaction using p-toluene sulfonyl azide in the presence of... [Pg.666]

Dimedone provides diazo dimedone (135) with -benzoic acid sulfonylazide (84%) and with p-tolyl sulfonylazide (96%). Weak nucleophilic base such as 1,8-diazabicyclo[5.4.0]undecen-7-ene (DBU) has been used as catalyst for the diazo transfer reactions of 1,3-diketones (136 -139).55 A highly efficient methodology in solid state has been developed for the synthesis of a-diazo carbonyl/sulfonyl compounds from 1,3-diketones using tosyl azide. This method avoids any aqueous workup and diazo compounds are obtained via a column filtration over silica gel. 0... [Pg.670]


See other pages where Sulfonyl transfer reactions is mentioned: [Pg.185]    [Pg.731]    [Pg.768]    [Pg.186]    [Pg.76]    [Pg.70]    [Pg.22]    [Pg.185]    [Pg.731]    [Pg.768]    [Pg.186]    [Pg.76]    [Pg.70]    [Pg.22]    [Pg.1095]    [Pg.1095]    [Pg.25]    [Pg.28]    [Pg.163]    [Pg.731]    [Pg.232]    [Pg.638]    [Pg.146]    [Pg.142]    [Pg.117]    [Pg.212]    [Pg.1065]    [Pg.68]    [Pg.148]    [Pg.376]    [Pg.376]    [Pg.387]    [Pg.65]   


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Diazo transfer reaction sulfonyl azides

Reactions sulfonylation

Sulfonyl reaction

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