Vídeo: Formação da Ligação C-C: Visão Geral da Condensação Aldólica

Aldol condensation involves an aldol addition reaction followed by dehydration.

In the aldol addition reaction, two identical aldehydes interact in acidic or basic conditions to form a β-hydroxy aldehyde as the initial product. Here, one aldehyde acts as a nucleophile and the other as an electrophile, creating a new carbon–carbon bond.

The name aldol comes from the presence of both alcohol and aldehyde functional groups — 'ald' representing aldehyde and 'ol' corresponding to alcohol.

Like aldehydes, two identical ketones also undergo an aldol addition reaction generating a β-hydroxy ketone.

The formation of the β-hydroxy carbonyl compound is reversible.

However, under suitable reaction conditions, the β-hydroxy aldehyde and ketone dehydrate to yield an enal and an enone, respectively.

An aldol condensation between two different carbonyl compounds is called a crossed aldol reaction. Such a reaction yields a mixture of products.

Aldol condensation is an important route in synthetic organic chemistry used to generate a new carbon–carbon bond under basic or acidic conditions. The aldol condensation reaction presented in Figure 1 constitutes an aldol addition reaction followed by the dehydration process.

Figure 1. The general aldol addition reaction of aldehydes.

Aldol addition reactions are reversible and are of two types: self-addition and crossed-addition. Combining two identical carbonyl compounds is called self-addition. As shown in Figure 2, the reaction between two different carbonyl compounds is called crossed-addition. Of the two carbonyl compounds involved in the reaction, one functions as a nucleophile and the other as an electrophile.

Figure 2. The crossed aldol addition reaction of aldehydes.

The two types of aldol addition reactions produce a β-hydroxy carbonyl as the aldol addition product. While a self-addition reaction yields a single aldol product, a crossed-addition results in a mixture of products, decreasing the reaction's usefulness in organic chemistry. Accordingly, the choice of reactants is paramount in defining the efficacy of the reaction.

Figure 3 depicts the subsequent dehydration of a β-hydroxy carbonyl compound under suitable reaction conditions to form the corresponding condensation product.

Figure 3. The dehydration reaction of aldols.

Tags

Aldol Condensation Synthetic Organic Chemistry Carbon carbon Bond Aldol Addition Reversible Reactions Self addition Crossed addition Carbonyl Compounds Nucleophile Electrophile hydroxy Carbonyl Dehydration Reaction Reaction Conditions

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15.14 : Formação da Ligação C-C: Visão Geral da Condensação Aldólica

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