Carboxylic acid - Nitriles, Synthesis, Reactions

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Nitriles

in carboxylic acid in Derivatives of carboxylic acids

Written by William H. Brown, Jerry March•All

Fact-checked by The Editors of Encyclopaedia Britannica

Last Updated: Mar 12, 2025 • Article History

Key People:: Pierre-Eugène-Marcellin Berthelot; Charles Gerhardt; Michel-Eugène Chevreul

Related Topics:: trichloroacetic acid; edetic acid; carboxylic acid derivative; palustric acid; phytic acid

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Nomenclature

Nitriles, RC≡N, are organic cyanides. They are named after the corresponding carboxylic acids by changing -ic acid to -onitrile, or -nitrile, whichever preserves a single letter o. Thus, CH₃CN is acetonitrile (from acetic acid), whereas C₆H₅CN is benzonitrile (from benzoic acid).

Structures of acetonitrile and benzonitrile. chemical compound, carboxylic acid

Synthesis

There are several methods of synthesizing nitriles. A common one is the treatment of an alkyl halide with sodium or potassium cyanide (RBr + KCN → RCN). Another method is the dehydration of the corresponding amide with a dehydrating agent such as phosphorus pentoxide (RCONH₂→ RCN). An aldehyde can be used to prepare a nitrile by first being converted to an oxime (RCH=NHOH) by treatment with hydroxylamine (NH₂OH), followed by dehydration of the oxime (RCHO → RCH=NHOH → RCN), most often with acetic anhydride. Aldehydes can be converted to nitriles in one step by treatment of the aldehyde with hydroxylamine together with formic acid, as well as by several other methods.

Reactions

Nitriles are easily hydrolyzed with water, in the presence of an acid or a base, to yield the corresponding carboxylic acid or its salt, respectively. (This chemical property is the reason nitriles are considered to be acid derivatives.)

Chemical Compounds. Carboxylic acids and their derivatives. Derivatives of Carboxylic Acids. Nitriles. Reactions. [Hydrolysis of nitriles.]

An amide is an intermediate and can be isolated under certain conditions, so this is also a method for the synthesis of amides. Nitriles can be reduced to primary amines (RCN → RCH₂NH₂) with many reducing agents, among them lithium aluminum hydride and hydrogen in the presence of a transition metal catalyst. Nitriles can also be reduced in a different manner to yield aldehydes (RCN → RCHO). Several methods are known for accomplishing this, one of which is treatment with stannous chloride (SnCl₂) and hydrochloric acid, followed by hydrolysis. In this method, RC=NH is an intermediate. Nitriles react with Grignard reagents to give, after hydrolysis, ketones (RCN + R′MgBr → RCOR′).

Jerry March William H. Brown