Dilithium acetylide is an organometallic compound with the formula Li2C2. It is typically derived by double deprotonation of acetylene. X-ray crystallography confirms the presence of subunits attached to lithium, resulting in a polymeric structure.[ is one of an extensive range of lithium-carbon compounds, which include the lithium-rich , , , , , , and the graphite intercalation compounds , , and . It is an intermediate compound produced during radiocarbon dating procedures.
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is the most thermodynamically-stable lithium-rich carbide[H. Moissan Comptes Rendus hebd. Seances Acad. Sci. 122, 362 (1896)] who reacted coal with lithium carbonate.
The other lithium-rich compounds are produced by reacting lithium vapor with chlorinated hydrocarbons, e.g. . Lithium carbide is sometimes confused with the drug lithium carbonate, , because of the similarity of its name.
Preparation and reactions
In the laboratory samples may be prepared by treating acetylene with butyl lithium:
Instead of butyl lithium, a solution of lithium in ammonia can be used to prepare . In this case, a transient adduct if formed. It decomposes with release of ammonia at room temperature.
Samples prepared from acetylene generally are poorly crystalline. Crystalline samples may be prepared by a reaction between molten lithium and graphite at over 1000 °C.
Other method for production of is heating of metallic lithium in atmosphere of ethylene. Lithium hydride is a coproduction:
Lithium carbide hydrolyzes readily to form acetylene as well as Lithium hydroxide:
Lithium hydride reacts with graphite at 400°C forming lithium carbide.
Lithium carbide reacts with acetylene in liquid ammonia rapidly to give a lithium hydrogen acetylide.
Preparation of the reagent in this way sometimes improves the yield in an ethynylation over that obtained with reagent prepared from lithium and acetylene.
Structure
could be viewed as a [[Zintl phase]]. It is not a salt. It adopts a distorted ''anti''-fluorite crystal structure, similar to that of rubidium peroxide () and [[caesium peroxide]] (). Each [[lithium]] atom is surrounded by six [[carbon]] atoms from 4 different [[acetylide]] [[anions]], with two acetylides co-ordinating side -on and the other two end-on.
Use in radiocarbon dating
There are a number of procedures employed, some that burn the sample producing carbon dioxide that is then reacted with lithium, and others where the carbon containing sample is reacted directly with lithium metal.[ University of Zurich Radiocarbon Laboratory webpage ] Note that lithium nitride may be formed and this produces ammonia when hydrolyzed, which contaminates the acetylene gas.
