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A Nucleophilic Aromatic Displacement Reactions of Aryl Halides

The carbon-halogen bonds of aryl halides are like those of alkenyl halides in being much stronger than those of alkyl halides. The simple aryl halides generally are resistant to attack by nucleophiles in either SN1 or SN2 reactions. However, this low reactivity can be changed dramatically by changes in the reaction conditions and the structure of the aryl halide. Nucleophilic displacement becomes quite rapid

  • when the aryl halide is activated by substitution with strongly electron-attracting groups such as NO2, and
  • when very strongly basic nucleophilic reagents are used.

Question for Nucleophilic Aromatic Substitution
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Which of the following conditions can increase the reactivity of aryl halides in nucleophilic displacement reactions?
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Addition-Elimination Mechanism of Nucleophilic Substitution of Aryl Halides

  • Although the simple aryl halides are inert to the usual nucleophilic reagents, considerable activation is produced by strongly electron-attracting substituents provided these are located in either the ortho or para positions, or both. For example, the displacement of chloride ion from 1-chloro-2,4-dinitrobenzene by dimethylamine occurs readily in ethanol solution at room temperature. Under the same conditions chlorobenzene completely fails to react; thus the activating influence of the two nitro groups amounts to a factor of at least 108:

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • A related reaction is that of 2,4-dinitrofluorobenzene with the amino groups of peptides and proteins, and this reaction provides a means for analysis of the N-terminal amino acids in polypeptide chains.
  • In general, the reactions of activated aryl halides closely resemble the SN2-displacement reactions of aliphatic halides. The same nucleophilic reagents are effective (e.g., CH3O, HO, and RNH2); the reactions are second order overall (first order in halide and first order in nucleophile); and for a given halide the more nucleophilic the attacking reagent, the faster the reaction. However, there must be more than a subtle difference in mechanism because an aryl halide is unable, to pass through the same type of transition state as an alkyl halide in SN2 displacements.
  • The generally accepted mechanism of nucleophilic aromatic substitution of aryl halides carrying activating groups involves two steps. The first step involves attack of the nucleophile Y:⊖ at the carbon bearing the halogen substituent to form an intermediate carbanion. The aromatic system is destroyed on forming the anion, and the carbon at the reaction site changes from planar (spbonds) to tetrahedral (sp3 bonds).

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • In the second step, loss of an anion, X or Y, regenerates an aromatic system, and, if X is lost, the overall reaction is nucleophilic displacement of X by Y.

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • In the case of a neutral nucleophilic reagent, Y or HY, the reaction sequence would be the same except for the necessary adjustments in the charge of the intermediate:

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • Why is this reaction pathway generally unfavorable for the simple aryl halides? The answer is that the intermediate is too high in energy to be formed at any practical rate. Not only has it lost the aromatic stabilization of the benzene ring, but its formation results in transfer of a negative charge to the ring carbons, which themselves are not very electronegative.
  • However, when strongly electron-attracting groups are located on the ring at the ortho-para positions, the intermediate anion is stabilized by delocalization of electrons from the ring carbons to more favorable locations on the substituent groups. As an example, consider the displacement of bromine by methoxid (OCH3) in the reaction of 4-bromonitrobenzene and methoxide ion:

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • The anionic intermediate formed by addition of methoxide ion to the aryl halide can be described by the valence-bond structures 5a-5d. Of these structures 5d is especially important because in it the charge is transferred from the ring carbons to the oxygen of the nitro substituent:

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • Substituents in the meta positions have much less effect on the reactivity of an aryl halide because delocalization of electrons to the substituent is not possible. No formulas can be written analogous to 5c and 5d in which the negative charges are both on atoms next to positive nitrogen,  Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

  • In a few instances, stable compounds resembling the postulated reaction intermediate have been isolated. One classic example is the complex 7 (isolated by J. Meisenheimer), which is the product of the reaction of either the methyl aryl ether 6 with potassium ethoxide, or the ethyl aryl ether 8 and potassium methoxide:

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

Solved Example

Example: Propose a mechanism for the following reaction:
Ans:

Nucleophilic Aromatic Substitution | Chemistry Optional Notes for UPSC

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FAQs on Nucleophilic Aromatic Substitution - Chemistry Optional Notes for UPSC

1. What is nucleophilic aromatic substitution?
Ans. Nucleophilic aromatic substitution is a type of reaction in organic chemistry where a nucleophile replaces a leaving group on an aromatic ring. This reaction occurs in aryl halides, where the halogen atom is replaced by a nucleophile.
2. What is the addition-elimination mechanism in nucleophilic substitution of aryl halides?
Ans. The addition-elimination mechanism is the mechanism followed in nucleophilic substitution of aryl halides. In this mechanism, the nucleophile first adds to the aryl halide, forming a sigma complex. This complex then undergoes elimination of the leaving group, resulting in the substitution of the halogen by the nucleophile.
3. How do nucleophilic aromatic displacement reactions of aryl halides occur?
Ans. Nucleophilic aromatic displacement reactions of aryl halides occur through the attack of a nucleophile on the electrophilic carbon of the aryl halide. The nucleophile donates a pair of electrons to the carbon, breaking the bond between the carbon and the halogen. This leads to the substitution of the halogen by the nucleophile.
4. What are some examples of nucleophilic aromatic substitution reactions of aryl halides?
Ans. Some examples of nucleophilic aromatic substitution reactions of aryl halides include the reaction of aryl halides with amines, alcohols, thiols, and carboxylates. These reactions result in the substitution of the halogen by the corresponding nucleophile.
5. How is nucleophilic aromatic substitution relevant to the UPSC exam?
Ans. Nucleophilic aromatic substitution is an important topic in organic chemistry, which is frequently asked in the UPSC exam. Understanding the mechanism and reactions involved in nucleophilic aromatic substitution of aryl halides is crucial for solving questions related to organic chemistry in the exam.
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