Grignard Reaction

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Grignard reaction

[grin′yär rē‚ak·shən]
(organic chemistry)
A reaction between an alkyl or aryl halide and magnesium metal in a suitable solvent, usually absolute ether, to form an organometallic halide.
McGraw-Hill Dictionary of Scientific & Technical Terms, 6E, Copyright © 2003 by The McGraw-Hill Companies, Inc.
The following article is from The Great Soviet Encyclopedia (1979). It might be outdated or ideologically biased.

Grignard Reaction


a general method of synthesizing organic substances using mixed organomagnesium compounds (Grignard reagents) of the type RMgX, where R is an aliphatic or aromatic radical and X is a halogen (usually Br or I, more rarely C1). The Grignard reaction was discovered by the French chemist F. A. V. Grignard in 1900. Grignard reagents are obtained by the action of Mg on alkyl or aryl halides in an ether medium and are usually used in the form of ether solutions. Methods of preparing RMgX using solvents other than ether have been worked out for industrial use. An atom of carbon bound to an atom of magnesium carries a partial negative charge δ-, so that compounds of RMgX are reactive in relation to reagents with positively charged reaction centers:

When RMgX reacts with C02, carboxylic acids are formed. With formaldehyde (CH2=0) primary alcohols are formed; with aldehydes (RCH=0), secondary alcohols; and with ketones (RR’C=0), tertiary alcohols. The use of the Grignard reaction to obtain ketones from carboxylic acids and their derivatives, for example,


is limited. It is difficult to stop the reaction at the ketone-forming stage, and ordinarily tertiary alcohols are formed in considerable quantity.

Grignard reagents react easily with halides of elements, for example.

2RMgX + HgCl2 → R2Hg + 2MgXCl

In this manner it is possible to obtain organic compounds of Be, Cd, B, Si, Ge, Pb, P, and other elements. Grignard reagents react with oxygen and sulfur to form alcohols and thioalcohols, respectively. When reacting with water, alcohols, acids, amines, and other compounds containing a labile atom of hydrogen, the RMgX decompose and hydrocarbons are formed:

RMgX + R’OH → R—H + R’OMgX

If CH3MgI is used, then it is possible to determine the amount of active hydrogen by the amount of methane released (the Chugaev-Tserevitinov method).


Ioffe, S. T., and A. N. Nesmeianov. Metody elementoorganicheskoi khimii. Moscow, 1963.
The Great Soviet Encyclopedia, 3rd Edition (1970-1979). © 2010 The Gale Group, Inc. All rights reserved.
References in periodicals archive ?
Grignard reaction with benzylmagnesium iodide provided 3-benzyl-4-methyl-4-aza-2,5-cholestadiene which was hydrogenated over a platinum catalyst to 3[beta]-benzyl-4-methyl-5[alpha]-cholestane.
It analyzes liquid phase reactions containing metal particles such as Grignard reactions, reactions carried out at subambient temperatures such as organolithium enolizations, as well as organometallic catalyzed reactions such as asymmetric reductions.