Alkali Metals: Organometallic Chemistry
Published Online: 15 DEC 2011
Copyright © 2011 John Wiley & Sons, Ltd. All rights reserved.
Encyclopedia of Inorganic and Bioinorganic Chemistry
How to Cite
Harvey, M. J. 2011. Alkali Metals: Organometallic Chemistry . Encyclopedia of Inorganic and Bioinorganic Chemistry. .
- Published Online: 15 DEC 2011
This is not the most recent version of the article. View current version (14 MAR 2014)
Organolithium complexes, like the organomagnesium Grignard Reagents, are important reactants in organic synthesis. The similarity in structure, bonding, and reactivity of organolithium and -magnesium compounds exemplifies the common chemistry exhibited by representative elements that appear in the same diagonal in the periodic table. Although much debate exists over the degree of covalency within lithium – carbon-bonding interactions, the presence of some covalent character in LiC bonds of alkyllithium compounds is widely accepted. The bonding interactions within organoalkali metal complexes of the heavier alkali metals are generally considered to be strongly electrostatic or ionic in nature. This is supported by a large collection of evidence, consisting primarily of solution NMR data, single-crystal X-ray analyses, and gas-phase computational studies. Many of the organolithium compounds are soluble in hydrocarbons, but organometallic compounds of the heavier group 1 metals generally require more polar solvents. In general, the reactivity of the alkali metals and the reactivity of the organometallic compounds of these metals increase as we go down the group or column. Organoalkali metal compounds are similar to, but more reactive than Grignard reagents. Organoalkali metal compounds are both air- and moisture-sensitive and are sometimes pyrophoric. In addition, organoalkali metal compounds will react as Brønsted bases with protic reagents. Specific details regarding the synthesis, reactivity, and structures of various types of organoalkali metal compounds will be discussed.