Video: C–C Bond Cleavage: Retro-Aldol Reaction

Sign In

15.20 : C–C Bond Cleavage: Retro-Aldol Reaction

The reverse of the aldol addition reaction is called the retro-aldol reaction. Here, the carbon–carbon bond in the aldol product is cleaved under acidic or basic conditions to form two molecules of carbonyl compounds. The mechanism of the reaction consists of three steps.

In the first step, as depicted in Figure 1, the base deprotonates the β-hydroxy ketone at the hydroxyl group to form an alkoxide ion.

Figure 1. The deprotonation of a β-hydroxy ketone to form an alkoxide ion.

Figure 2 shows the second step, which involves the cleavage of the carbon–carbon bond to yield a ketone molecule and an enolate ion.

Figure 2. The formation of an enolate ion.

Finally, as illustrated in Figure 3, the enolate ion is protonated to form the second ketone molecule.

Figure 3. The protonation of enolate generates a second ketone.

Similarly, the β-hydroxy aldehyde in the presence of a base undergoes the retro-aldol reaction to produce two aldehyde molecules.

Tags

C C Bond Cleavage Retro aldol Reaction Aldol Addition Carbonyl Compounds Alkoxide Ion Deprotonation Ketone Enolate Ion Protonation hydroxy Ketone hydroxy Aldehyde

From Chapter 15:

article

Now Playing

15.20 : C–C Bond Cleavage: Retro-Aldol Reaction

α-Carbon Chemistry: Enols, Enolates, and Enamines

4.7K Views

article

15.1 : Reactivity of Enols

α-Carbon Chemistry: Enols, Enolates, and Enamines

2.5K Views

article

15.2 : Reactivity of Enolate Ions

α-Carbon Chemistry: Enols, Enolates, and Enamines

2.2K Views

article

15.3 : Types of Enols and Enolates

α-Carbon Chemistry: Enols, Enolates, and Enamines

2.0K Views

article

15.4 : Enolate Mechanism Conventions

α-Carbon Chemistry: Enols, Enolates, and Enamines

1.8K Views

article

15.5 : Regioselective Formation of Enolates

α-Carbon Chemistry: Enols, Enolates, and Enamines

2.3K Views

article

15.6 : Stereochemical Effects of Enolization

α-Carbon Chemistry: Enols, Enolates, and Enamines

1.8K Views

article

15.7 : Acid-Catalyzed α-Halogenation of Aldehydes and Ketones

α-Carbon Chemistry: Enols, Enolates, and Enamines

3.2K Views

article

15.8 : Base-Promoted α-Halogenation of Aldehydes and Ketones

α-Carbon Chemistry: Enols, Enolates, and Enamines

3.1K Views

article

15.9 : Multiple Halogenation of Methyl Ketones: Haloform Reaction

α-Carbon Chemistry: Enols, Enolates, and Enamines

1.7K Views

article

15.10 : α-Halogenation of Carboxylic Acid Derivatives: Overview

α-Carbon Chemistry: Enols, Enolates, and Enamines

3.0K Views

article

15.11 : α-Bromination of Carboxylic Acids: Hell–Volhard–Zelinski Reaction

α-Carbon Chemistry: Enols, Enolates, and Enamines

2.7K Views

article

15.12 : Reactions of α-Halocarbonyl Compounds: Nucleophilic Substitution

α-Carbon Chemistry: Enols, Enolates, and Enamines

3.0K Views

article

15.13 : Nitrosation of Enols

α-Carbon Chemistry: Enols, Enolates, and Enamines

2.0K Views

article

15.14 : C–C Bond Formation: Aldol Condensation Overview

α-Carbon Chemistry: Enols, Enolates, and Enamines

10.4K Views

See More

Copyright © 2025 MyJoVE Corporation. All rights reserved