Organolithium chemistry is the science of organolithium compounds describing their physical properties, synthesis, and reactions. Organolithium compounds in organometallic chemistry contain carbon-lithium chemical bonds. A major subset and perhaps the most used organolithium compounds are organolithium reagents, such as butyllithium
Various depictions of the methyl lithium tetramer. Colour code: Li- purple C- black H- white
Alkyl and aryl monolithium are illustrated by their simplest members, methyl lithium and phenyl lithium. These useful reagents have complicated structures owing to the tendency of the C-Li unit to aggregate, forming clusters. These compounds are prepared by metal-halogen exchange, which entails stirring solutions of the alkyl halide with lithium metal:
Naphthalene, anthracene, and related polycyclic aromatic compounds are reduced by lithium to give Li<sup>+</sup> salts of their radical anions:
Lithium naphthalene () is used as a reductant in the synthesis of organic, organometallic, and inorganic chemistry.
These compounds, which have two C-Li bonds can be classified into two distinct groups. Simplest but rare is dilithiomethanide () and its many derivatives. Some derivatives have even been characterized by X-ray crystallography.
The more common dilithiated organic compounds the Li atoms are bound to separate carbon atoms. 1,4-dilithiobutane () would be an example.
Dilithioacetylide (, again is not a salt, but adopts a distorted anti-fluorite crystal structure, similar to that of rubidium peroxide ().
Tetralithiomethane has attracted attention mainly for theoretical reasons. Its structure remains uncertain, but some speculation posited planar carbon.