Electrophilic Aromatic Substitution: NO2 & NO Groups

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SUMMARY

The discussion focuses on the directing effects of the NO2 and NO groups in electrophilic aromatic substitution (EAS). The NO2 group is established as a meta-directing deactivator, while the nitroso group (NO) directs ortho-para substitution with deactivation. Participants emphasize the importance of understanding resonance structures and the behavior of aryl cations in these reactions. Additionally, it is noted that halides like bromine also direct ortho-para while deactivating the aromatic ring.

PREREQUISITES
  • Understanding of electrophilic aromatic substitution (EAS) mechanisms
  • Familiarity with resonance structures and aryl cations
  • Knowledge of the electronic effects of substituents on aromatic compounds
  • Basic concepts of organic chemistry, particularly functional groups
NEXT STEPS
  • Study the resonance structures of nitro (-NO2) and nitroso (-NO) groups in detail
  • Learn about the mechanisms of electrophilic aromatic substitution involving halides
  • Investigate the effects of different substituents on the reactivity of aromatic compounds
  • Explore advanced topics in organic chemistry related to directing effects and deactivation
USEFUL FOR

Chemistry students, organic chemists, and researchers interested in electrophilic aromatic substitution and the effects of substituents on aromatic reactivity.

ddrplayboy
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The NO2 group directs meta with-deactivation in electrophilic aromatic substitution. The nitroso group - NO directs ortho-para with - deactivation. Write out the electroinc structures of - NO2 and -NO and explain the differences in behavior. Show all pertinent resonance forms for the addition of bromonium ino to form p-bromonitrosobenzene.
thanks for looking
 
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What is your question? We can't just answer your textbook question. What are you having trouble with in the problem?
 
First off, nitroso is written as -ONO. Please show where you are stuck; if you don't understand anything, be sure to post your question after you have studied to understand our responses.
 
Start by writing out the resonance structures for the aryl cation, "move the electrons around" as you have learned before, or should have. You should be able to notice why the nitroso group is supposed to direct ortho para ("supposed" since I haven't looked into this before). Ortho para with deactivation? doesn't ring a bell to me.
 
Last edited:
Halides like bromine on the aromatic ring will direct ortho/para while deactivating the ring as well. To justify this observation you will need to consider two different effects.
 
chem_tr said:
First off, nitroso is written as -ONO. Please show where you are stuck; if you don't understand anything, be sure to post your question after you have studied to understand our responses.

Edit: Nitroso may also be in the form of N=O, as we are dealing with organic substances; inorganic nitroso compounds are written as -ONO.
 

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