Nitro group ortho effect

The initial addition step occurs only if the ring has a substituent that can stabilize the negative charge of the intermediate. The substituent must be ortho or para to the site of the reaction. For example, a/)-nitro group is effective because the negative charge can be distributed to its two oxygen atoms. 

Often the directing effects of substituents reinforce each other Brommation of p mtrotoluene for example takes place at the position that is ortho to the ortho para directing methyl group and meta to the meta directing nitro group... 

An ortho nitro group exerts a comparable rate enhancing effect m Chloronitrobenzene although much more reactive than chlorobenzene itself is thousands of times less reac tive than either o or p chloronitrobenzene... 

Nucleophilic Displacement Reactions. The strong electron-withdrawing effect of a trifluoromethyl group activates ortho and para halogen toward nucleophilic attack. Such chlorine labiUty is utili2ed in the manufacture of crop control chemicals containing trifluoromethyl and nitro groups. 

A nitro group in the artho or para position to fluonne is known to enhance its replacement by hydroxyl [II, 12] Bromine and iodine are much less prone to hydrolysis under similar conditions The effect is much less pronounced with the meta nitro derivative (equation 11) With o-nitro-p-fluoroaniline, it is the amino group ortho to the nitro group, rather than meia fluorine, that is replaced by hydroxyl (equation 12)... 

As to the electron-withdrawing substituents, the activating effect of a nitro group in the piperidino-dechlorination of 2-chloropyridine involves factors of 7.3 x 10 and 4.6 x 10 from the para and ortho positions, respectively. An ortho-cyano group was found to be... 

The ortho indirect deactivating effect of the two methyl groups in 2,6-dimethyl-4-nitropyridine 1-oxide (163) necessitates a much higher temperature (about 195°, 24 hr) for nucleophilic displacement of the nitro group by chloride (12iV HCl) or bromide ions N HBr) than is required for the same reaction with 4-nitropyridine 1-oxide (110°). With 5-, 6-, or 8-methyl-4-chloroquinolines, Badey observed 2-7-fold decreases in the rate of piperidino-dechlorination relative to that of the des-methyl parent (cf. Tables VII and XI, pp. 276 and 338, respectively). 

In Scheme IV, intranuclejar activation is depicted. Kinetic studies with ionic nucleophiles show a variable relationship between the rates of reaction ortho and para to an azine-nitrogen (348 vs. 353 or 349) or nitro group due to entropy effects the energy of activation is expected on further study to be consistently lower for the para-position. The relative reactivity of 2- and 4-substituted bicyclic azines... 

X. If the directing effects of the two groups reinforce each other, the situation is straightforward. In p-nitrotoluene, for example, both the methyl and the nitro group direct further substitution to the same position (ortho to the methyl = meta to the nitro). A single product is thus formed on electrophilic substitution. 

Subsequently, these authors have also studied the effect of polar factors on the sulfenate-sulfoxide equilibrium and obtained similar results to those reported by Braverman and coworkers . For example, reaction of 2,4-dinitrobenzenesulfenyl chloride with lithium allyl-a-dj alcoholate gives only (or perhaps mainly ) allyl-a-d2 2,4-dinitrobenzenesulfenate, whereas the corresponding reaction with 4-nitrobenzenesul-fenyl chloride results in complete ( > 99%) rearrangement to the sulfoxide. However, when a single nitro group is located in the ortho position, the ratio (K) of sulfenate to sulfoxide approaches unity. This ratio is also affected by the polarity of the solvent and changes from 1.43 in CCI4 to 0.39 in chloroform, consistent with the results described above for the equilibrium shown in equation 9. 

The Australian patents also contain descriptions of analogs, which include nitro-phenyl thiophosphates possessing more than one nitro group. Many of the analogs are biologically active, and several exhibit high activities comparable with parathion. The o-nitrophenyl isomer, which is present to some extent in crude parathion, is substantially less active than the p-nitrophenyl isomer (parathion itself). These patents disclose a synergistic effect of the ortho isomer with parathion. 

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