Nitrobenzene is an aromatic organic compound with the chemical formula C6H5NO2. It is a pale yellow oily liquid with a distinctive almond-like odor. Nitrobenzene is an important industrial chemical and an intermediate in the production of various pharmaceuticals, dyes, and other organic compounds.
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Nitrobenzene is a common example of a nitro-substituted aromatic compound, where a nitro group (-NO2) is attached to the benzene ring.
The nitro group is an electron-withdrawing substituent, which influences the reactivity of the aromatic ring in electrophilic aromatic substitution reactions.
Nitrobenzene can undergo Friedel-Crafts alkylation and acylation reactions, where the nitro group directs the incoming electrophile to the ortho and para positions relative to itself.
The presence of the nitro group on the benzene ring decreases the basicity of any arylamines (aromatic amines) that may be present, due to the electron-withdrawing effect.
The nitro group also increases the acidity of the aromatic ring, making it more susceptible to electrophilic attack.
Review Questions
Explain how the nitro group on nitrobenzene affects the reactivity of the aromatic ring in electrophilic aromatic substitution reactions.
The nitro group on nitrobenzene is an electron-withdrawing substituent, which means it reduces the electron density of the aromatic ring. This makes the ring more susceptible to electrophilic attack, as the electrophile is attracted to the partially positively charged carbon atoms. Additionally, the nitro group directs the incoming electrophile to the ortho and para positions relative to itself, due to resonance stabilization of the intermediate carbocation.
Describe the role of nitrobenzene in Friedel-Crafts alkylation and acylation reactions.
Nitrobenzene can undergo Friedel-Crafts alkylation and acylation reactions, where an alkyl or acyl group is introduced onto the aromatic ring. The nitro group on nitrobenzene acts as a directing group, guiding the incoming electrophile to the ortho and para positions relative to the nitro group. This is due to the stabilization of the intermediate carbocation by the resonance effects of the nitro group, which makes these positions more reactive and favors their substitution.
Analyze how the presence of the nitro group on nitrobenzene affects the basicity of any arylamines (aromatic amines) and the acidity of the aromatic ring.
The nitro group on nitrobenzene is an electron-withdrawing substituent, which means it reduces the electron density of the aromatic ring. This decreased electron density leads to a decrease in the basicity of any arylamines (aromatic amines) that may be present, as the nitrogen atom in the amine group has less electron density to donate. Additionally, the electron-withdrawing effect of the nitro group increases the acidity of the aromatic ring, making it more susceptible to electrophilic attack due to the partial positive charge on the carbon atoms.
Substituent effects describe how the presence and nature of substituents on an aromatic ring can influence the reactivity and properties of the compound.