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Nitro compounds rearrangement

Allylic nitro compounds form rr-allylpalladium complexes by displacement of the nitro group and react with nucleophiles, and allylation with the tertiary nitro compound 202 takes place at the more substituted side without rearrangement to give 203[8,9,128]. [Pg.317]

Electrolytic reductions generally caimot compete economically with chemical reductions of nitro compounds to amines, but they have been appHed in some specific reactions, such as the preparation of aminophenols (qv) from aromatic nitro compounds. For example, in the presence of sulfuric acid, cathodic reduction of aromatic nitro compounds with a free para-position leads to -aminophenol [123-30-8] hy rearrangement of the intermediate N-phenyl-hydroxylamine [100-65-2] (61). [Pg.263]

Chloro- and 5-methylbenzofuroxans are readily nitrated in the 4-position the product rearranges easily to form 7-substituted 4-nitro compounds (see Section VIII), also obtained by nitration of the corresponding 4-substituted benzofuroxans. Dinitration of 5-methylbenzofuroxan is said to give a product of m.p. 133°, while the 4-methyl gives a dinitro compound m.p. 122°-123°. For other benzofuroxans to have been nitrated see refs. 19, 36, 81, 97,121. There appears to be some confusion over the site of electrophilic substitution of naphtho[l,2-c]furoxan. Early reports in the literature state that nitration gives the 5,6-dinitro derivative (47). However, sulfona-... [Pg.24]

Reaction of nitromalon-bis-A -methylanilide (105) with sulfuric acid gives A -methylisatin- -oxime (107) and not 4-methylquinoxalin-3-one 1-oxide (108) as originally suggested. This transformation may involve a Beckmann-type rearrangement of the protonated aci-nitro compound (106) prior to dehydrative ring closure. ... [Pg.238]

Allylic nitro compounds are obtained by the reacdon of cyclic ketones with nitromethane in the presence of 1,2-diaminoethane fl mol% as catalyst. Because exa-cyclic nitroalkenes are rearranged to the fi)iifo-cyclic fi,Y-nitroalkenes, allylic nitro compounds are selecdvely produced fEq. 3.21. ... [Pg.37]

When aromatic nitro compounds are treated with cyanide ion, the nitro group is displaced and a carboxyl group enters with cine substitution (p. 854), always ortho to the displaced group, never meta or para. The scope of this reaction, called the von Richter rearrangement, is variable. As with other nucleophilic aromatic substitutions, the reaction gives best results when electron-withdrawing groups are in ortho and para positions, but yields are low, usually < 20% and never > 50%. [Pg.876]

Rearrangement of aromatic nitro compounds upon treatment with... [Pg.1661]

Allylic nitro compounds undergo [2.3]sigmatropic rearrangement to afford rearranged alcohols, as shown in Eq. 7.4346 and Eq. 7.44 47 Because the allylic nitro compounds used in these reactions are readily prepared either by the Henry reaction or the Michael addition, these reactions may be useful in organic synthesis. [Pg.192]

All of these elimination reactions contain [i-carbonyl groups in the nitro compounds. Of course, masked carbonyl groups are also frequently employed for such (3-elimination of HN02, as shown in Eq. 7.131,177 Eq. 7.132,178 and Eq. 7.133.179 In these cases, the sulfinylmethyl or hydroxymethyl group is converted into the carbonyl group by the Pummerer rearrangement or by simple oxidation. [Pg.222]

Aromatic aminosulfonic acids, which play a major role in connection with pigment lakes, are produced by sulfonating the corresponding nitro compound and then reducing it to an aminosulfonic acid. An alternative technique, known as baking process, involves exposing an amine/dihydrosulfate to a temperature of 200 to 300°C in order to effect rearrangement to p-aminosulfonic acid. Ortho-sulfonation prevails if the para position is occupied. In contrast to sulfonation techniques with sulfuric acid, this method avoids wastewater contamination with sulfuric acid. [Pg.186]

All primary nitro-compounds couple with diazobenzene, but instead of the expected azo-compounds, phenylhydrazones of a-nitro-aldehydes are formed by rearrangement of the molecule ... [Pg.161]

In respect of their properties, conditions of rearrangement, and reactions, we simply refer to what was said about the keto-enol change. Here, also, the bromine method enables the points of equilibrium to be determined quantitatively. The oldest and most important example of desmotropy in nitro-compounds was found in phenylnitromethane,... [Pg.263]

The mechanism of the coupling reaction has been very exhaustively studied. Summarising first what has already been mentioned, it must be noted that the reaction is not confined to the aromatic series, for diazo-compounds condense also with enols and with the very closely related aliphatic aci-nitro-compounds. The final products of these reactions are not azo-compounds, but the isomeric hydrazones formed from them by rearrangement. [Pg.306]

See other pages where Nitro compounds rearrangement is mentioned: [Pg.25]    [Pg.27]    [Pg.25]    [Pg.25]    [Pg.27]    [Pg.25]    [Pg.94]    [Pg.339]    [Pg.198]    [Pg.257]    [Pg.469]    [Pg.262]    [Pg.75]    [Pg.306]    [Pg.697]    [Pg.702]    [Pg.1327]    [Pg.313]    [Pg.342]    [Pg.126]    [Pg.71]    [Pg.75]    [Pg.264]   
See also in sourсe #XX -- [ Pg.672 ]



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Allylic nitro compounds rearrangement

Aromatic nitro compounds rearrangement

Rearrangement compounds

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