Nitroso compounds reactions with alkenes

C-Nitroso compounds, reactions with alkenes leading to heterocycles ... 

Metallacyclopentadienes undergo a range of synthetically versatile reactions which proceed with extrusion of the metal atom and attendant ligands. Thus, reactions with alkenes and alkynes afford cyclohexa-1,3-dienes and arenes (Scheme 6), and thiophenes, selena-cyclopentadienes, pyrroles and cyclopentadienones (indenones, fluorenones) can be obtained by treatment with sulfur, selenium, nitroso compounds and CO, respectively. The best studied substrates for such reactions are cobaltacyclopentadienes of the type (24a), which have been converted into a wide variety of arenes, cyclohexadienes and five-membered heterocycles, many of which would be very difficult to obtain by conventional organic procedures (74TL4549, 77JOM(139)169, 80JCS(P2)1344). 

Taking into account the vicarious nature of the nucleophile the authors suggested that ring closure occurs inside alkenic aH-adduct 290 with participation of the nitro group. However, in principle, the reaction might proceed via the formation of nitroso compound 291 with subsequent electrocyclization into oxazine 292 and hydrolytic exchange of the p-tosyl group (Scheme 85). 

Benzonitrile oxide (C in Figure 15.44) is an isolable 1,3-dipole. It can be generated from benzaldoxime and anNaOH/Cl2 solution. Under these reaction conditions the oxime/nitroso anion (A B) is initially formed and chlorine disproportionates into Cl—O and chloride. An SN reaction of the negatively charged C atom of the anion A B at the Cl atom of Cl— O or of Cl—O—H affords the oc-chlorinated nitroso compound E, which tautomerizes to the hydroxamic acid chloride D. From that species, the nitrile oxide C is generated via a base mediated 1,3-elimination. Isoxazoles are formed in the reactions of C with alkynes (Figure 15.44), while isoxazolines would be formed in its reactions with alkenes. 

Nitroso compounds and their reaction with alkenes have been very well characterized. Reactions of aryl or acyl nitroso compounds have demonstrated synthetic utility. Interestingly, reaction of aryl nitroso compounds did not display analogous selectivity to TAD nor 02 but instead displayed a selectivity of its own. Reaction of / -nitro-nitrosobenzene manifested a selectivity for abstraction from the twix group (see 88). An example of this was the conversion of 98 into 100, the only compound reported to form. ... 

Diazomethane is a valuable and useful agent in organic synthesis that can be employed as a Ci building block in many single-step chemical reactions, for example, the methylation of alcohols or phenols, esteriflcations of carbonic adds, cyclopropanation reactions with alkenes, the synthesis of heterocycles, and the synthesis of a-diazoketones from acid chlorides or anhydrides. In general, the reactions proceed with release of nitrogen. Usually, diazomethane is freshly prepared from N-methyl-nitroso compounds and aqueous KOH solution and can be stored as a cooled solution for a couple of days. However, its low boiling point... 

A variety of double bonds give reactions corresponding to the pattern of the ene reaction. Those that have been studied from a mechanistic and synthetic perspective include alkenes, aldehydes and ketones, imines and iminium ions, triazoline-2,5-diones, nitroso compounds, and singlet oxygen, 10=0. After a mechanistic overview of the reaction, we concentrate on the carbon-carbon bond-forming reactions. The important and well-studied reaction with 10=0 is discussed in Section 12.3.2. 

There is a tendency toward alternation in the copolymerization of ethylene with carbon monoxide. Copolymerizations of carbon monoxide with tetrafluoroethylene, vinyl acetate, vinyl chloride, and acrylonitrile have been reported but with few details [Starkweather, 1987]. The reactions of alkenes with oxygen and quinones are not well defined in terms of the stoichiometry of the products. These reactions are better classified as retardation or inhibition reactions because of the very slow copolymerization rates (Sec. 3-7a). Other copolymerizations include the reaction of alkene monomers with sulfur and nitroso compounds [Green et al., 1967 Miyata and Sawada, 1988]. 

The versatility of these [4+2] heterocyclization reactions is a consequence of the wide range of ene and diene components which can be used. In addition to alkenes and alkynes functioning as ene components, a variety of heterodienophiles is available such as electron-deficient imines (e.g. equation 89), nitriles e.g. equation 90), electrophilic carbonyl compounds (e.g. equation 91), thiocarbonyl compounds (e.g. equation 92), singlet oxygen (e.g. equation 93), nitroso compounds (e.g. equation 94), sulfenylsulfonamides (e.g. equation 95) and azo compounds (e.g. equation 96). Many of these reactions proceed with excellent regioselectivity and stereoselectivity, probably because in many instances they involve... 

A related reaction accompanied by cyclization occurred with ortho-substituted benzamides (and also non-cyclic amides such as RCH(CONH2)2 [60]. Several compounds with a primary amino group, such as t-butylamine, p-tol uenesulphona-mide, ethyl carbamate, etc. were oxidized by DIB in presence of alkenes or nitroso compounds to give, respectively, aziridines or azoxy compounds. 

Nitrosyl halides add to alkenes references are scattered through the litnnture back to 1875 (ref. 194 and references cited therein). The adducts vary enormously in their stability, but when their structures allow they, like nonhalogenated nitroso compounds, isomerize to oximes or dimnize. The orientation of the reaction is consistent with an electrophilic medumism, in which the reagent is polarized as NO Hat. Bicyclic substrates and reaction media of low polarity favor syn addition, suggesting a four-center transition state (Scheme 81). Aziridine synthesis via NOCl/alkene adducts is discussed in Section 3.5.2.1. 

A functionalization that converts C—H bonds to C— NO bonds occurs when nitrite esters are photo-lyzed (the Barton reaction Scheme 4). Again an alkoxyl radical abstracts a 8-hydrogen, and the resulting carbon radical picks up NO. The product nitroso compounds convert easily to oximes. Particularly valuable examples have bMn studied in the steroid field. If the photolysis is performed in the presence of copperfll) acetate the intermediate carbon radical can be oxidized to an alkene, rather than capture NO. If the alcohol whose nitrite ester is photolyzed is part of a cyanohydrin, then the Heusler-Kalvoda reaction occurs, and the product is a ketone with a migrated cyano group (Scheme 5) ... 

The reaction of dinitrogen tetroxide with alkenes generally gives 1,2-dinitro compounds, fi-ni-tro nitrites and /5-nitro nitrates, often as mixtures, by a radical mechanism (Section 7.2.1.7). However, a /5-nitroso nitrate was obtained by the heterolysis (NO NOf) of dinitrogen tetroxide and ionic addition to 2,3-dimethyl-2-butene71. 

The reaction of alkenes with nitric oxide (NO), a mixture of nitric oxide and oxygen, or dinitrogen trioxide leads to /i-nitroso nitro compounds ( / -nitrosites or pseudo-nitrosites), which can convert to nitroso dimers79. Nitroalkenes are common byproducts in these reactions. The formation of /i-nitroso nitro compounds in the reaction between alkenes and nitric oxide is explained by the presence of nitrogen dioxide and dinitrogen trioxide in the nitric oxide. The reaction may be initiated by the attack of the N02 radical on the alkene to give a /i-nitroalkyl radical which then couples with nitric oxide. 

The reaction of alkenes with pure nitric oxide, however, occurs only at a pressure of 5 atmospheres or more, affording the /i-nitroso nitro compounds in rather low yields together with more complex unidentified materials80. Under these conditions it is presumed that initial disproportionation of nitric oxide occurs. 

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