Name: Directing Effect of Substituents: meta-Directing Groups
Uploaded: 2023-04-30T10:32:34
Description: Learn by watching this video about Directing Effect of Substituents: meta-Directing Groups at JoVE.com

Substituents on the benzene ring that can orient an incoming group to a position meta to itself during electrophilic substitution are meta directors.
All meta-directing groups are polar with a positive or a partial positive charge on the atom immediately neighboring the ring. Additionally, such atoms have no lone pairs.
These substituents withdraw the ring electrons through inductive and resonance effects.
To better understand the directing effects of these substituents, consider the addition of an electrophile on nitrobenzene to give the resonance contributors arising from the ortho, meta and para attack.
Ortho and para intermediates include one unfavorable structure with repelling positive charges on the adjacent atoms.
In comparison, in the meta intermediates, the positive charges are well separated with no adjacent atoms bearing like charges.
Thus, ortho and para carbocation intermediates are less stable than meta, preferring the substitution primarily at the meta position.

directing effect of substituents: meta-directing groups

Substituents on the benzene ring that direct an incoming electrophile to undergo substitution at the&#160;meta position are called&#160;meta&#160;directors. All meta&#160;directors either have&#160;a positive charge on the atom directly bonded to the ring or a partial positive charge. These groups function by withdrawing electrons from the ring through inductive and resonance effects. Consider the carbocation intermediates formed upon the addition of an electrophile on nitrobenzene at the ortho, meta, and para positions. While all three have&#160;resonance forms,&#160;the ortho and para intermediates have&#160;one unfavorable structure each&#160;due to repelling positive charges on&#160;adjacent atoms. However, adjacent atoms do not bear like charges in any of the resonance forms of the&#160;meta&#160;intermediates. Consequently, the ortho- and para-carbocation intermediates are less stable than the&#160;meta-carbocation intermediates. Therefore, substitution is&#160;preferred at the meta position.

Learn by watching this video about Directing Effect of Substituents: meta-Directing Groups at JoVE.com

Directing Effect of Substituents: meta-Directing Groups

Directing Effect of Substituents: meta-Directing Groups

Substituents on the benzene ring that direct an incoming electrophile to undergo substitution at the&#160;meta position are ...

directing-effect-of-substituents-meta-directing-groups

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unit 1

covalent bonding and structure

Covalent Bonding and Structure

Chapter 1 thermodynamics and chemical kinetics

Thermodynamics and Chemical Kinetics

Chapter 2 alkanes and cycloalkanes

Alkanes and Cycloalkanes

Chapter 3 stereoisomerism

Stereoisomerism

Chapter 4 acids and bases

Acids and Bases

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Chapter 7 reactions of alkenes

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Ethers, Epoxides, Sulfides

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Aldehydes and Ketones

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Chapter 13 carboxylic acid derivatives

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Chapter 15 dienes, conjugated pi systems, and pericyclic reactions

Dienes, Conjugated Pi Systems, and Pericyclic Reactions

Chapter 16 aromatic compounds

Aromatic Compounds

Chapter 17 reactions of aromatic compounds

Chapter 18 amines

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Chapter 19 radical chemistry

Radical Chemistry

Chapter 20 synthetic polymers

Synthetic Polymers

Chapter 21 key terms and concepts

scientists in action

SCIENTISTS IN ACTION

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NMR Spectroscopy of Benzene Derivatives

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Electrophilic Aromatic Substitution: Overview

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NMR Spectroscopy of Benzene Derivatives

Reactions at the Benzylic Position: Oxidation and Reduction

Reactions at the Benzylic Position: Halogenation

Electrophilic Aromatic Substitution: Overview

Electrophilic Aromatic Substitution: Chlorination and Bromination of Benzene

Electrophilic Aromatic Substitution: Fluorination and Iodination of Benzene

Electrophilic Aromatic Substitution: Nitration of Benzene

Electrophilic Aromatic Substitution: Sulfonation of Benzene

Electrophilic Aromatic Substitution: Friedel–Crafts Alkylation of Benzene

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