Substitution by nitro

Phenol has different chemical properties from those of typical alcohols. Display the electrostatic potential map for phenol. Does this suggest that phenol is likely to be a stronger or weaker acid than any of the compounds discussed above Compare the electrostatic potential map for 4-nitrophenol to that for phenol. What effect does substitution by nitro have on acid strength Explain your result by considering charge delocalization in the conjugate base. Draw all reasonable Lewis structures for phenoxide anion and for 4-nitrophenoxide anion. Which is more delocalized Is this consistent with experimental pKa s ... 

Nitration of 3,7-dibromophenothiazine-5,5-dioxide (71) at positions 1 and 9 probably precedes the substitution by nitro groups of the bromine atoms from positions 3 and 7, as indicated by the isolation of the l-nitro-3,7-dibromo-5,5-dioxide (90c) when acetic acid is used as a diluting medium. 

The nitrocellulose polymer substrate was a fully nitrated derivative of cellulose, in which the free hydroxyl groups are substituted by nitro groups, and is thus hydrophobic in nature. Researchers have shown that the immobilization of proteins on nitrocellulose surfaces rehes on hydrophobic interactions. However, polysaccharides, being rich in hydroxyl groups, are hydrophilic in nature (42,61). The molecular forces for the carbohydrate-nitrocellulose interaction remain to be characterized, but it has been suggested that the three-dimensional (3D) microporous configuration of the nitrocellulose on the slides and the macropolymer characteristics of polysaccharides play important roles for the stable immobilization of many polysaccharides on the nitrocellulose surface. The polysaccharide molecules immobilized onto the nitrocellulose film are in a nonsite-specific format (Fig. 3). 

Pyrrolnitrin possesses a structure in which the benzene and pyrrole rings are attached and substituted by nitro and chlorine units [3]. Because of the unusual structure, the biosynthetic pathway became of interest, and Gorman and Lively proposed a biogenesis of pyrrolnitrin from tryptophan [2]. Studies using various stable and unstable isotopes were conducted using P. aureofaciens, which also produces pyrrolnitrin. As a result, it was shown that the skeleton of pyrrolnitrin originated from tryptophan, and that D-tryptophan was incorporated better than L-tryptophan. Namely, when [2- H, tryptophan was fed, it was clarified that the... 

A phosphine-Schiff base ligand (17) has been used for copper-catalysed asymmetric conjugate addition of diethylzinc to various ( )-alkenyl aryl ketones where the aryl ring is either a phenyl group substituted by nitro, chloro, or methoxy groups or not substituted or a naphthyl group. When the conjugate addition has been performed in ethyl acetate... 

Comparison of data for the nitration of alkyl- and halogenobenzenes with those for the related p-nitro-compounds supports the view that the rate of nitration of highly electron-deficient systems is determined by polarizability factors which enhance the reactivity of the substituted by comparison with that of the unsubstituted system. 

Even when deactivated by nitro substitution on C-5, the 2-aminothiazoles still undergo diazotization (35, 338-340). As with carbonyl derivatives (Section III.2.B), competition may occur between N nucleophilic reactivity and nitrosation of the 5-position when it is unsubstituted (341-344). 

Attack on the electrophilic C-2 may occur as in the 2-aminothiazoles series, which probably explains the rearrangements observed in acidic medium (121, 711, 712, 723, 724), in aqueous medium with NaOAc (725), or with aqueous NaHCOj (725) (Scheme 232). That the initial attack probably involves the C-2 atom is substantiated by the fact that this rearrangement occurs under extremely mild conditions for 2-iinino-3-substituted-5-nitro-4-thiazolines (725). As the whole mechanism proposed (see p. 92) is reversible, when imino derivatives are submitted to such rearrangement conditions the rearrangement is expected to occur faster if steric interaction between 3- and 4-substituents exists in the 2-imino isomer. Another reaction may occur in acidic medium phenylimino-2-bipheny]-3,4-4-thiazoline hydrolyzed with hydrochloric acid gives the corresponding 4-thiazoline-2-one and aniline (717). 

The generally accepted mechanism for nucleophilic aromatic substitution m nitro substituted aryl halides illustrated for the reaction of p fluoromtrobenzene with sodium methoxide is outlined m Figure 23 3 It is a two step addition-elimination mechanism, m which addition of the nucleophile to the aryl halide is followed by elimination of the halide leaving group Figure 23 4 shows the structure of the key intermediate The mech anism is consistent with the following experimental observations... 

A nitro group behaves the same way m both reactions it attracts electrons Reaction is retarded when electrons flow from the aromatic ring to the attacking species (electrophilic aromatic substitution) Reaction is facilitated when electrons flow from the attacking species to the aromatic ring (nucleophilic aromatic substitution) By being aware of the connection between reactivity and substituent effects you will sharpen your appreciation of how chemical reactions occur... 

Toluene itself does not undergo substitution by nucleophilic attack of anions but requires substitution by strongly electronegative groups, such as nitro groups, before the ring becomes sufftciendy electrophilic to react with anions. 

Substitution by chloro, nitro, and similar groups iacreases the molecular weight and improves sublimation fastness but lowers the oil solubiUty of this group of dyes. 

The unique feature of the SrnI reactions of substituted alkyl nitro compounds is the facility with which carbon-carbon bonds between highly branched centers can be formed. This point is illustrated by several of the examples in Scheme 12.7. 

Mononitration of a mixture of J- and 4 chlorobenzotnfluondes followed by nucleophilic substitution by hydroxide, ammonia, or a primary or secondary amine in dimethylformamide, leads to 5 chloro 2 nitrobenzotrifluoride The 4-chloro-3-nitro isomer selectively reacts and can be removed as a water-soluble phenoxide [19] (equation 16)... 

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-... 

Tliis methodology has also been extended to the use of liquid methylamine/ potassium permanganate (LMA/PP system). When this system is applied to a number of 3-nitro-l,8-naphthyridines (92a-92g), the C-4 position could be successfully substituted by methylamino group yielding 93a-93f. Tire intermediary 4-methylamino-[Pg.305]

More than twenty years ago, Nesmeyanov s group showed that chlorine can be substituted by a variety of nucleophiles in FeCp(r 6-PhCl)+ [83, 84]. Indeed the chlorine substituent in the chlorobenzene (even) ligand is 1000 times more reactive than when it is located on the cyclopentadienyl (odd) ligand [85]. The FeCp+ is a good withdrawing group which is equivalent to two nitro groups in terms of activation. The reactions proceed under ambient conditions with primary or secondary amines and have been extended to other substituted chloroarene complexes [86, 87] Eq. (22), Table 2. 

Bowman and Symons145 probed the stability of a series of radical anions involved in the SRN1 substitution for a-substituted aliphatic nitro-compounds [Me2C(X)N02] by studying with ESR at 77 K the succession of events following electron capture by Me2C(X)N02. The radical anions were more concentrated in an ether matrix than in an... 

A long series of studies of aromatic nucleophilic substitution included the kinetics of reactions of l-chloro-2,4-bis(trifluoromethylsulfonyl)benzene, 3-nitro-4-chlorophenyl trifluoromethyl sulfone and 2-chlorophenyl trifluoromethyl sulfone with sodium methox-ide or ammonia in methanol . The SO2CF3 group was found to have an enormous accelerating effect, in accord with the value of 1.65, based on the dissociation of anilinium ion. Further examples of the promotion of nucleophilic aromatic substitution by fluoro-substituted sulfonyl groups are given by Yagupol skii and coworkers . 

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