Dakin–West reaction: Difference between revisions

Dakin–West reaction is an organic chemistry reaction that involves the transformation of carboxylic acids into their corresponding acyl ketones through the reaction with acetic anhydride in the presence of a base. This reaction was first reported by Henry Drysdale Dakin and Randolph West in 1928. The Dakin–West reaction is particularly useful for synthesizing β-ketoesters and amides, making it a valuable tool in the synthesis of complex organic molecules.

Mechanism[edit]

The mechanism of the Dakin–West reaction begins with the deprotonation of the carboxylic acid by a base, typically pyridine, to form a carboxylate anion. This anion then reacts with acetic anhydride, leading to the formation of a mixed anhydride intermediate. Subsequent intramolecular acylation and elimination steps yield the β-ketoester or amide product. The reaction is characterized by its ability to introduce an acyl group at the α-position of a carboxylic acid in a single step.

Applications[edit]

The Dakin–West reaction has found applications in various fields of organic synthesis. It is particularly useful in the synthesis of complex molecules such as natural products, pharmaceuticals, and agrochemicals. The ability to efficiently synthesize β-ketoesters and amides, which are important intermediates in organic synthesis, makes the Dakin–West reaction a valuable tool for chemists.

Limitations[edit]

Despite its utility, the Dakin–West reaction has some limitations. The reaction conditions can be harsh, and sensitive functional groups may not be compatible with the reaction conditions. Additionally, the reaction typically requires a strong base, which can lead to side reactions or decomposition of the starting materials.

Variants[edit]

Several variants of the Dakin–West reaction have been developed to overcome its limitations and expand its applicability. These include modifications of the reaction conditions, the use of different bases, and the application of the reaction to different types of starting materials. These variants have broadened the scope of the Dakin–West reaction, making it a more versatile tool in organic synthesis.

See also[edit]

• Organic synthesis
• Carboxylic acid
• Ketone
• Acetic anhydride
• Pyridine

References[edit]

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  Dakin–West reaction scheme
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  Dakin–West reaction mechanism
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  Dakin–West aryl ketone formation