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Bromamine-T

Bromamine-T can also be utilized as a nitrene source, as reported by Zhang et al. [27]. Fe(in) porphyrins such as Fe(TPPC)Cl (Figure 4.2) thus catalyze the aziridination of alkenes when bromamine-T is used, whereas chloramine-T was inactive and iodinanes were inefficient reagents. [Pg.126]

An alternative preparation of aziridines reacts an alkene with iodine and chloramine-T (see p. 1056) generating the corresponding A-tosyl aziridine. Bromamine-T (TsNBr Na ) has been used in a similar manner." Diazoalkanes react with imines to give aziridines." Another useful reagent is NsN=IPh, which reacts with alkenes in the presence of rhodium compounds or Cu(OTf)2 to give N—Ns aziridines. Manganese salen catalysts have also been used with this reagent. ... [Pg.1058]

A more practical, atom-economic and environmentally benign aziridination protocol is the use of chloramine-T or bromamine-T as nitrene source, which leads to NaCl or NaBr as the sole reaction by-product. In 2001, Gross reported an iron corrole catalyzed aziridination of styrenes with chloramine-T [83]. With iron corrole as catalyst, the aziridination can be performed rmder air atmosphere conditions, affording aziridines in moderate product yields (48-60%). In 2004, Zhang described an aziridination with bromamine-T as nitrene source and [Fe(TTP)Cl] as catalyst [84]. This catalytic system is effective for a variety of alkenes, including aromatic, aliphatic, cyclic, and acyclic alkenes, as well as cx,p-unsaturated esters (Scheme 28). Moderate to low stereoselectivities for 1,2-disubstituted alkenes were observed indicating the involvement of radical intermediate. [Pg.133]

As with chlorine-containing oxidants, JV-bromo species have been used to oxidize sulphoxides to sulphones (with no bromine incorporation) through the initial formation of a bromosulphonium ion, by nucleophilic attack of the sulphoxide sulphur atom on the electrophilic halogen atom. Such reactions involve JV-bromosuccinimide ° bromamine-T, iV-bromoacetamide ° and iV-bromobenzenesulphonamide. All reported studies were of a kinetic nature and yields were not quoted. In acid solution all oxidations occurred at or around room temperature with the nucleophilic attack on the electrophilic bromine atom being the rate-limiting step. In alkaline solution a catalyst such as osmium tetroxide is required for the reaction to proceed . ... [Pg.982]

Aziridines, the smallest heterocycles, are an important class of compounds in organic chemistry. Interesting access [8] to aziridines by using Bromamine-T as a source of nitrogen in the copper (Il)-catalyzed aziridination of olefins in MeCN was recently reported. Application of microwaves has resulted in enhanced yields for aziridines [9] with short reaction times (Scheme 8.5). [Pg.255]

H, Cl, Br, NO2, Me, MeO) by bromamine-B, catalysed in the presence of HCl in 30% aqueous methanol by RuCls have been smdied and a biphasic Hammett a-relationship derived. A kinetic study of the ruthenium(in)-catalysed oxidation of aliphatic primary amines by sodium A-bromo-j -toluenesulfonamide (bromamine-T, BAT) in hydrochloric acid medium has been undertaken and the mechanism of the reaction discussed. A concerted hydrogen-atom transfer one-electron transfer mechanism is proposed for the ruthenium(in)-catalysed oxidation of 2-methylpentane-2,4-diol by alkaline hexacyanoferrate(III). The kinetics of the oxidation of propane-... [Pg.226]

Kinetic studies of the oxidation of aspirin by bromamine-T, A-bromosuccinimide (NBS), and A-bromophthalimide (NBP) support a mechanism in which the unpro-tonated oxidant is the active species. " The ultimate product of the reaction is 2,4,6-tribromophenol, which arises through decarboxylation, bromination and loss of acetic acid. The NBP and NBS oxidations of -hydroxy acids are found to be similar in mechanism. [Pg.231]

Thus far, enantioselective intramolecular aziridination via metal nitrene intermediates has not been successful. Bromamine-T has recently been shown to be a viable source of nitrene for addition to alkenes in copper halide catalyzed reactions, " and so has iodosylbenzene (Phl=0) that forms 44 in situ. Conceptually, aziridination does not necessarily fall between cyclopropanation and epoxidation, as some have suggested. Instead, metal nitrene chemistry has unique problems and potential advantages associated with the electron pair at nitrogen that are yet to be fully overcome. [Pg.584]

Catalysis of the oxidation of allyl and crotyl alcohols with chloramine-T, 375 chloramine-B, bromamine-T, and bromamine-B Catalysis of the chloramine-T oxidation of glycolic and lactic acids 376... [Pg.280]

The kinetics of oxidation of caffeine by sodium IV-bromo-p-toluenesulfonamide (bromamine-T) in dilute HC1 have been studied.138 In the oxidation of a-phenylbenzenemethanols by bromamine-T catalysed by ruthenium(III), the reaction constant p is —2.1 for electron-releasing substituents.139 It is proposed that the... [Pg.191]

The first reports on iron-catalyzed aziridinations date back to 1984, when Mansuy et al. reported that iron and manganese porphyrin catalysts were able to transfer a nitrene moiety on to alkenes [90]. They used iminoiodinanes PhIN=R (R = tosyl) as the nitrene source. However, yields remained low (up to 55% for styrene aziridination). It was suggested that the active intermediate formed during the reaction was an Fev=NTs complex and that this complex would transfer the NTs moiety to the alkene [91-93]. However, the catalytic performance was hampered by the rapid iron-catalyzed decomposition of PhI=NTs into iodobenzene and sulfonamide. Other reports on aziridination reactions with iron porphyrins or corroles and nitrene sources such as bromamine-T or chloramine-T have been published [94], An asymmetric variant was presented by Marchon and coworkers [95]. Biomimetic systems such as those mentioned above will be dealt with elsewhere. [Pg.87]

The reactivity of sulfanilic acid towards haloamines, in alkaline solutions, follows the order BAB > bromamine-T > CAB > CAT. This has been attributed to the difference in the electrophilicities of Cl+ and Br+ ions and the van der Waal s radii of chlorine and bromine. A probable mechanism has been suggested.174... [Pg.111]

The formation of aziridines using bromamine-T was catalysed by cobalt porphyrins.77 Yields range from the mid-50% level to >90% with aliphatic and aromatic alkenes. Sulfonimidamide also yielded aziridines when treated with iodosylbenzene diacetate in the presence of dirhodium tetraacetate.78... [Pg.145]

Following the publication of our method, similar procedures were reported by two other groups. One involves the use of bromamine-T as a nitrogen source instead of CT for the aziridination of olefins [14] the other is the copper(I) triflate-catalyzed aziridination and allylic amination with CT trihydrate [7d] (Schemes 8 and 9). [Pg.175]

Scheme 8. Copper-catalyzed aziridination of a-methylstyrene with bromamine-T. Scheme 8. Copper-catalyzed aziridination of a-methylstyrene with bromamine-T.
Among other convenient nitrene precursors are chloramine-T (A-chloro-A-sodio-p-toluenesulfonamide), bromamine-T, sulfonamides in the presence of (diacetoxyiodo)benzene and various transition metal catalysts, and sulfonyl azides in the presence of ruthenium complexes . [Pg.656]

See other pages where Bromamine-T is mentioned: [Pg.129]    [Pg.456]    [Pg.113]    [Pg.343]    [Pg.400]    [Pg.118]    [Pg.80]    [Pg.82]    [Pg.160]    [Pg.229]    [Pg.231]    [Pg.234]    [Pg.583]    [Pg.129]    [Pg.192]    [Pg.1037]    [Pg.1060]    [Pg.192]    [Pg.249]    [Pg.97]    [Pg.49]    [Pg.175]    [Pg.61]    [Pg.764]    [Pg.764]    [Pg.56]   


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