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Chapter 15: α-Carbon Chemistry: Enols, Enolates, and Enamines Back To Chapter

15.18: Dehydration of Aldols to Enones: Acid-Catalyzed Aldol Condensation

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Organic Chemistry

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Dehydration of Aldols to Enones: Acid-Catalyzed Aldol Condensation

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15.17: Dehydration of Aldols to Enals: Base-Catalyzed Aldol Condensation

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The β-hydroxy ketone dehydrates in acidic conditions via an E1 elimination reaction to form an enone.

The E1 elimination proceeds through two distinct steps: ionization and deprotonation.

In the first step, the hydroxyl group in the presence of an acid functions as a Bronsted–Lowry base and accepts a proton to yield a hydrated hydroxyl group. Then, a neutral water molecule departs to give a tertiary carbocation intermediate.

Finally, the chloride ion abstracts the hydrogen atom from the α carbon to form an enone as the product.

15.18: Dehydration of Aldols to Enones: Acid-Catalyzed Aldol Condensation

As shown in Figure 1, under acidic conditions, the β-hydroxy ketone undergoes dehydration via an E1 elimination reaction to form an enone.

Figure 1. The dehydration reaction of a β-hydroxy ketone.

Figure 2 depicts the sequential processes involved in the mechanism of the reaction. Here, the acid protonates the hydroxyl group in the β-hydroxy ketone to form a hydrated hydroxyl group, which then departs to form a tertiary carbocation intermediate. Subsequently, the loss of the hydrogen atom from the α carbon yields an enone as the final product.

Figure 2. The mechanism of the dehydration reaction of a β-hydroxy ketone.

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Dehydration Aldol Enones Acid-catalyzed Condensation E1 Elimination Reaction Mechanism Hydroxyl Group Carbocation Intermediate

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