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Nitroalkanes oximes

CH—NHOH) to oxime (C=NOH) and ultimately to the nitroalkane (CH—NO2). Hydrogen peroxide generates amine oxides from tertiary cycloaUphatic... [Pg.208]

The reducdon of nltroalkenes v/ith ZnBHl in 1,2-dimethoxyethane (DMEi gives the corresponding oximes or nitroalkanes depending on the stnicture of nltroalkenes. ct-Subsdtuted nltroalkenes are reduced to the oximes, whereas those having no ct-subsdtuents afford the nitroalkanes fEq. 3.47. ... [Pg.44]

Whereas secondary nitroalkanes such as 1-nitrocyclohexane 1766 are reduced to the corresponding oximes, for example 1767 [24], primary nitro compounds such as a-nitro-o-xylene 1768 or unsaturated nitro compounds such as 1770 are transformed into nitriles such as 1769 and 1771 [24] (Scheme 12.6). [Pg.264]

Conway, C.C., Nie, G., Huesain, N.S. and Fiala, E.S. (1991). Comparison of otddative damage to rat liver DNA and RNA by primary nitroalkanes, secondary nitroalkanes, cyclo-pentanone oxime and related compounds. Cancer Res. 51, 3143-3147. [Pg.211]

The conversion of oximes to nitroalkanes has been achieved by employing an Mo(IV) oxodiperoxo complex as oxidant in acetonitrile. Both aldoximes and ketoximes are converted into the corresponding nitroalkanes (Eqs. 2.61 and 2.62),123 representing a complementary synthetic route to the use of the UHP method. [Pg.22]

The 1,4-addition of RMgX or RLi to nitroalkenes produces nitronate intermediates, which are converted into nitroalkanes, nitrile oxides (oxime chlorides), or carboxylic acids, depending on the conditions of hydrolysis (Scheme 4.14).94... [Pg.96]

The conversion of nitroalkanes to ketoximes can be achieved by the reduction with Zn in acetic acid,112 or Fe in acetic acid.113 Nitroalkenes are direcdy reduced into saturated ketoximes by these reagents, which are precursors for ketones (see Section 6.1.4 Nef reaction). Reduction of 3-O-ace-ty lated sugar 1 -nitro-1 -alkenes with Zn in acetic acid gives the corresponding 2,3-unsaturated sugar oximes in high yield, which is a versatile route to 2,3-unsaturated sugar derivatives (Eq. 6.58).114... [Pg.176]

The cycloaddition, reduction and oxidation reactions emanating from a,/J-unsatu-rated nitroalkenes provide easy access to a vast array of functionalities that include nitroalkanes, N-substituted hydroxylamines, amines, ketones, oximes, and a-substi-tuted oximes and ketones [73-75], Consequently, there are numerous possibilities of using these in situ generated nitroalkenes for the preparation of valuable building blocks and synthetic precursors. [Pg.193]

Use of copper and silver salts in ethylenediamine solution provides a method for catalytic H2 reduction of nitroalkanes to oximes (541) ... [Pg.386]

I. reactions of BENA with C-nucleophiles Russian researchers performed comprehensive studies on C,C-coupling reactions of terminal BENAs A with anions of nitro compounds (516, 517). This process enables one to assemble 3-substituted oximes from two different AN ((441) and 442). It should be noted that compound (442) must have the methyl group at the a-C atom necessary for generation of terminal BENA. Both nitroalkanes should be prepared for C,C-coupling, that is, AN (441) is transformed into the anion C by the reaction with DBU, while AN (442) is successively transformed into BENA A and nitrosoalkene B. The C,C-coupling reaction B + C is shown in Scheme 3.238. [Pg.674]

Silylation of AN (528b,c,e) with another silylating agent (Me3SiCl/Et3N) gives poorly separable mixtures of unidentified products. However, the reaction of AN (528a) under these conditions produces the silyl derivative of bis-oxime (533), which can be subjected to desilylation to prepare free bis-oxime (534) (491, 497). The stereoselectivity of the reaction with respect to the new C,C double bond is low (E/Z 1.3 1). Silylation of sterically more hindered nitroalkane (528 d)... [Pg.708]

Sodium perborate in acetic acid converts oximes into nitro compounds thus acetophenone oxime yields 52% of PhCHMeN02403. Nitroalkanes and nitroarenes are obtained from isocyanates and dimethyldioxirane (equation 122)404. [Pg.604]

Oximes 392 are produced when acetone solutions of nitroalkanes 391 (R = PhCH2, Et02CCH2CH2, 1-cyclohexenyl etc.) are irradiated in the presence of triethylamine431. [Pg.609]

Oximes RCH=NOH are produced in the reduction of nitroalkanes RCH2NO2 by carbon disulphide in the presence of triethylamine461 or wet potassium carbonate and... [Pg.615]

Some recent advances have been reported in oxime oxidation, including the in situ generation of peroxytrifluoroacetic acid from the reaction of urea hydrogen peroxide complex with TFAA in acetonitrile at 0 °C This method gives good yields of nitroalkanes from aldoximes but fails with ketoximes. [Pg.18]

The original procedure for the bromination-oxidation-reduction route used bromine in aqueous potassium hydroxide, followed by oxidation with nitric acid-hydrogen peroxide and reduction with alkaline ethanol. This procedure was improved by using NBS in aqueous sodium bicarbonate for the initial oxime bromination, followed by oxidation with nitric acid and final reduction of the Q -bromonitroalkane with sodium borohydride in methanol. It is possible to convert oximes to nitroalkanes via this procedure without isolating or purifying any of the intermediates. This procedure is reported to give yields of between 10 and 55 % for a range of oxime to nitroalkane conversions. ... [Pg.19]

Knifton reported that solutions of cuprous salts in amine solvents are excellent catalysts for the selective reduction of nitroalkanes to the corresponding oximes. [Pg.171]

The chemistry of nitro compounds forms the basis of a number of well-known processes, such as the Henry or the Nef reactions . Transformations such as the latter permit the interconversion between nitro and other functional groups and are therefore of prime importance. The most commonly employed methods for the reduction of primary nitroalkanes to oximes involve the use of BusSnH, Se/NaBH4, CS2 or SnCla (often in combination with thiophenol) . [Pg.171]

Most of the current preparative methods of oximes from nitroalkenes are not versatile. Reduction of nitroalkenes by CrCl2 or NaH2P02 in the presence of palladium was reported to afford the corresponding oximes, but the yields are not satisfactory. Zn-acetic acid and Na2Sn02 reductions are limited to the preparation of ketoximes only. Electroreduction of alkenes was reported to yield mixmres of ketones and ketoximes, or oximes and acetals (or ketones) depending on the strucmre of nitroalkanes. [Pg.172]

Nitrile oxides, which are formed by dehydration of nitroalkanes or by oxidation of oximes with hypochlorite,87 88 are also useful 1,3-dipoles. They are highly reactive and must be generated in situ.ss They react with both alkenes and alkynes. Entry 5 in Scheme 6.5 is an example in which the cycloaddition product (an isoxazole) was eventually converted to a prostaglandin derivative. [Pg.365]

Aliphatic primary amines are known to be oxidized by dimethyl dioxiranes to various products such as oximes, nitroso dimers, nitroalkanes, nitrones and oxazrridines under various conditions depending upon the oxidation reaction . In contrast, when secondary amines lacking a-hydrogens are allowed to react with Oxone and PTC in buffered acetone solution at 0 °C, nitroxides are obtained in good yields in a few minutes (equation 61) . [Pg.1026]

Substrates with doubly bonded nitrogen-atom functionalities, e.g. the C=N-R (imino, oxime) group, are usually cleaved by dioxirane to give the corresponding carbonyl product" . A particular case represents the DMD oxidation of the nitronate ions, generated from nitroalkanes" or nitroarenes. For example, the nitronate anion 16 (equation 13) affords initially the cyclohexadienone on oxidation with DMD, which subsequently tau-tomerizes to the phenol as the final product. An exception is the DMD oxidation of an... [Pg.1152]

Photoexcited nitrobenzene may be used for benzylic hydroxylation (at C-9) of 17/3-acetoxy-3-methoxyoestra-l,3,5(10)-triene. The photochemistry of the 17/3-nitro-steroid (217) is markedly solvent dependent, the major products being in ether the 17-desnitro-compound (218), in propan-2-ol the hydroxylamine (219), and in EtOH-NaOEt the hydroxamic acid (220) and the cyclopropane (221). The hydroxamic acid (220) is probably formed through the oxaziridine (Scheme 7). Although there are analogies to this in the photochemistry of nitrones and oximes, the photoreduction of a nitroalkane in propan-2-ol to an alkyl-hydroxylamine appears to have no precedent. Further studies of photochemistry of conjugated... [Pg.257]


See other pages where Nitroalkanes oximes is mentioned: [Pg.166]    [Pg.286]    [Pg.183]    [Pg.319]    [Pg.159]    [Pg.279]    [Pg.159]    [Pg.279]    [Pg.166]    [Pg.286]    [Pg.183]    [Pg.319]    [Pg.159]    [Pg.279]    [Pg.159]    [Pg.279]    [Pg.638]    [Pg.497]    [Pg.167]    [Pg.175]    [Pg.77]    [Pg.78]    [Pg.532]    [Pg.167]    [Pg.175]    [Pg.104]    [Pg.708]    [Pg.187]    [Pg.184]    [Pg.1141]    [Pg.11]    [Pg.19]    [Pg.279]    [Pg.175]   
See also in sourсe #XX -- [ Pg.21 ]




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