Substitution, electrophilic ortho

Electrophilic substitutions reveal ortho/meta activations by electron donors such as alkyl and methoxy groups ... 

Phenoxide ion generated by treating phenol with sodium hydroxide is even more reactive than phenol towards electrophilic aromatic substitution. Hence, it undergoes electrophilic substitution with carbon dioxide, a weak electrophile. Ortho hydroj benzoic acid is formed as the main reaction product. 

On co-adsorbing phenol and methanol, the protonation of methanol occurs on the active acid sites as the labile protons released from the phenol reacted with methanol. Thus protonated methanol became electrophilic methyl species, which undergo electrophilic substitution. The ortho position of phenol, which is close to the catalyst surface, has eventually become the substitution reaction center to form the ortho methylated products (Figure 3). This mechanism was also supported by the competitive adsorption of reactants with acidity probe pyridine [79]. A sequential adsorption of phenol and pyridine has shown the formation of phenolate anion and pyridinium ion that indicated the protonation of pyridine. 

This carbyne was shown not to be the RCM active species. At —20 °C it rearranged spontaneously into the indenylidene complex XV with release of TfOH. This intramolecular transformation corresponds to the electrophilic ortho-substitution of one phenyl group by the electrophilic carbyne carbon of XIV. The carbene complex XV was identified as the species thermally formed in situ from the catalyst precursors Ia,b in the range 25-80 °C. 

The title derivatives with strong acids generate heterocyclic carbocations that may lead to intramolecular electrophilic substitution in ortho sites of 4-benzyl or 4-benzyl-like substituents. 

Step 2a Electrophilic aromatic substitution occurs ortho to the amide. 

Hydroxylation of arylamines with persulfate ion, or Boyland-Sims oxidation, gives ortho-substituted aminophenols in good yields [29]. As with the Elbs oxidation, the procedure is also carried out in two steps - first, treatment with the oxidant to obtain an aminophenyl sulfate ester and, second, hydrolysis to obtain the final product. Primary, secondary and tertiary amines can all be used in this reaction. The ortho product is formed, except when no ortho-positions are available, which leads to para-substitution. Electrophilic attack on the ipso-carbon is believed to be the most likely mechanism, although minor radical pathways also seem to be present. 

Answer The -Ca H5 group and Br are both or//io para directors while the —NOj is a strong meta director with regard to aromatic electrophilic substitution. The ortho relationship of the — NO and —CaHs groups dictates that... 

In compound A, the NHCOCH3 group activates its two ortho positions, and the CH3 group activates its two ortho positions to reaction with electrophiles. Becau.se the NHCOCH3 is a stronger activator, substitution occurs ortho to it. 

Note the differences between electrophilic and nucleophilic aromatic 1 substitutions Electrophilic substitutions are favored by electron-donofi g substituents, which stabilize the carbocation intermediate, while nucleophilic substitutions are favored by d ron-withdrawing substituents, which stabilize a carbanion intermediate. The electron-withdrawing groups that deactivate rings for electrophilic substitution (nitro, carbonyl, cyano, and so on) activate them for nucleophilic substitution. What s more, these groups are meta directors in electrophilic substitution, but are ortho-para directors in nucleophilic substitution. 

Pyrones, which are the ring-oxygen equivalents of pyridones, are simply a- and y-hydroxy-pyrylium salts from which an 0-proton has been removed. There is little to recommend that 2- and 4-pyrones be viewed as aromatic they are perhaps best seen as cyclic unsaturated lactones and cyclic p-oxy-a,P-unsaturated-ketones, respectively, for example 2-pyrones are hydrolysed by alkali, just like simpler esters (lactones). It is instructive that, whereas the pyrones are converted into pyridones by reaction with amines or ammonia, the reverse is not the case - pyridones are not transformed into pyrones by water or hydroxide. Some electrophilic C-substitutions are known for pyrones and benzopyrenes, the oxygen guiding the electrophile ortho or para, however there is a tendency for electrophihe addition to the C-C double bond of the heterocyclic ring, again reflecting their non-aromatic nature. Easy Diels-Alder additions to 2-pyrones are further evidence for diene, rather than aromatic, character. 

The substitution of ortho hydrogens of coordinated phenylphosphines and phenylphosphites suggests that the formation of the cyclic intermediate proceeds via a Friedel-Crafts-type electrophilic substitution (52). The complete scheme, using 27 28 as an example, may be written as follows ... 

Methyl is an electron-releasing group and activates all the available ring carbons toward electrophilic substitution. The ortho and para positions are activated more than... 

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