P-halonitrobenzenes

Activated nitro and halo substituents have been efficiently replaced by a variety of alkyl groups via SsAx reaction with carbanions. Examples include the displacement of the nitro group in compounds (10 X = 4-PhCO, 4-MeOCO, 4-CN, 4-N02, 4-PhS02, 3,5-(CF3>2) by the anion of 2-nitropropane in HMPA at room temperature (equation 2),83 and the reaction of p-dinitrobenzene with several ketones, esters and nitriles (RH equation 3) in Bu OK/liquid NH3 at -70 C.84 Interestingly, under the latter reaction conditions, p-chloronitrobenzene gave the product of alkylation rather than of SNAr displacement of chloride, as in equation (4).85 Further examples include the dehalogenation of p-halonitrobenzenes by 9-fluorenyl anions in DMSO at room temperature,34 and dehalogenation and denitration reactions by the carbanions of phenyl- and diphenyl-acetonitrile in DMSO or under PTC conditions.86... 

The effect of substituents on the rate of addition of carbanions to nitroarenes and the rate of p-elimination of HL from the o adducts have also been studied [8, 30, 31]. The former effect is an important parameter, because it is, in fact, a measure of influence of substituents on electrophilic activity of nitroaromatic rings. The effect of substituents on rate of the S Ar reactions of o- and p-halonitrobenzenes has been thoroughly studied [2, 32]. However, since the S Ar of halogen is a secondary process, the obtained data cannot be used as a real measure of electrophilicity of halonitroarenes. We have determined the effects of substituents and the ring structure on the rate of the VNS reactimi of nitroarenes with the carbanion of chloromethyl phenyl sulfone by using competitive experiments under the conditions, which assure a fast p-eUmination of HL from the o adducts [30, 31]. The values of VNS rates obtained under such conditions proved to correlate with those of the addition step. Selected values of the relative rate constants in relation to nitrobenzene as the standard are shown in Fig. 1. 

A series of nucleophilic aromatic substitutions was systematically investigated by Verboom and coworkers in a high-pressure capillary microreactor [46]. p-Halonitrobenzenes (with X=F, Cl, Br) were reacted with a 10-fold excess of three different amines (pyrrolidine, piperidine and morpholine) at pressures up to 600 bar to give the corresponding p-N,N-dialkylaminonitrobenzenes (Scheme 4.23). The pressure dependences of the reaction rates were quantitatively analyzed with on-line... 

Scheme 4.23 Nucleophilic substitution reactions of p-halonitrobenzenes (X=F, Cl, Br) with pyrrolidine (Y=-), piperidine (Y=CH2) and morpholine (Y=0).

Compton RG, Dryfe RAW, Fisher AC (1994) Photoelectrochemical reduction of p-halonitrobenzenes. J Chem Soc Perkin Trans 2(7) 1581-1587. doi 10.1039/p29940001581... 

SCHEME 11.17 Vicarious nucleophilic substitution in p-halonitrobenzenes with carbanion of chloromethyl... 

Verboom and coworkers developed a high-pressure microreactor setup that could investigate the influence of pressure on the aromatic nucleophilic substitution reaction of p-halonitrobenzenes with cyclic amines up to 600bar [25], The reaction... 

Benzo-fusion onto halonitrobenzenes (Table VIII, p. 277) produces acceleration of aminations or alkoxylations (Tables XII and XIII) except for 3-halo-2-nitronaphthalenes which are analogous to 3-haloisoquinolines. 

Iridium,204,205 together with osmium, has been not widely used in catalytic hydrogenation. Recently, however, iridium or iridium-based catalysts have been shown to be effective in various hydrogenations, such as in selective hydrogenation of a,P-unsaturated aldehydes to allylic alcohols (Section 5.2), of aromatic nitro compounds to the corresponding hydroxylamines (Section 9.3.6), of halonitrobenzenes to haloanilines without loss of halogen (Section 9.3.2), and in the stereoselective hydrogenation of carbon to carbon double bonds (see, e.g., eqs. 3.25-3.27 and Table... 

Platinum catalysts have been shown to be highly selective for the hydrogenation of halonitrobenzenes to haloanilines. A number of effective platinum catalysts or catalyst systems have been described in the literature, mostly in patents.96 Dovell and Greenfield found that the sulfides of the platinum metals and cobalt were highly selective in the hydrogenation of halo-substituted nitrobenzenes.117-119 There was no detectable dechlorination with the sulfides of palladium, platinum, rhodium, ruthenium, and cobalt no detectable debromination occurred with platinum sulfide trace debromination occurred with rhodium sulfide and cobalt sulfide and appreciable debromination occurred with palladium sulfide. Typical hydrogenations with 5% platinum sulfide on carbon catalyst are given in eqs. 9.52 and 9.53 with 2,5-dichloronitrobenzene and p-bromobenzene, respectively.118... 

Haloanilines are obtained from halonitrobenzenes preferably by the iron-acid reduction procedure. Nuclear halogenation occurs during the reduction of nitrobenzene by stannous chloride in the presence of acetic anhydride a quantitative yield of p-chloroacetanilide is obtained. Hydrogenation of halonitrobenzenes over Raney nickel catalyst is possible provided that the temperature is kept below 150°, at which point... 

Radical anions of haloaromatic compounds are proposed to be intermediates in different type of reactions. Their fragmentation rates, determined electrochemically [300] or by pulse radiolysis [301] range from lO " s for phenyl halides to 10 s for some halonitrobenzenes. The rate of the reaction for some aryl hahde radical anions is too high to be measured electrochemically, the fragmentation of more stable radical anions such as those of 1-bromo- and 1-iodoanthraquinone [302], p-[303] and m-bromo- [304] and p- [303] and w-chloronitrobenzenes [304] occurs at considerably lower rates and the reaction is favored from their photoexcited state. Aryl halide radical anions may present a-n orbital isomerism depending on the orbital symmetry of their singly occupied molecular orbital [305], a proposal derived from theoretical and experimental evidences [306]. The isomerism is possible... 

Oxidizing conditions (p. 208) in the synthesis of a fused 2-substituted triazole may be avoided by reacting a 2-halonitrobenzene with a hydrazine. 

---