Lithium nitride

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Lithium nitride

Identifiers
CAS number	26134-62-3 ^Y
PubChem	520242
EC number	247-475-2
ChEBI	30525
InChI	1/3Li.N
Properties
Molecular formula	Li₃N
Molar mass	34.83 g/mol
Appearance	red, purple solid
Density	1.270 g/cm³
Melting point	813 °C, 1086 K, 1495 °F
Solubility in water	reacts
log P	3.24
Hazards
EU Index	Not listed
Main hazards	reacts with water to release ammonia
Related compounds
Other anions	Lithium oxide
Other cations	Sodium nitride
Related compounds	Lithium amide
Y (what is this?) (verify) Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Lithium nitride is a compound of lithium and nitrogen with the formula Li₃N. It is the only stable alkali metal nitride. The solid is a red or purple color and has a high melting point.

Li₃N has an unusual crystal structure that consists of two types of layers, one sheet has the composition Li₂N^в€’ contains 6-coordinate Li centers and the other sheet consist only of lithium cations. Solid lithium nitride is a fast ion conductor and has the highest conductivity of any inorganic lithium salt. It has been studied extensively as a solid electrolyte and an anode material for use in batteries.^[1] It can be formed by direct reaction of the elements, either by burning lithium metal in pure nitrogen gas or by reacting nitrogen gas with lithium dissolved in liquid sodium metal.^[2] The second method gives a purer product. Lithium nitride reacts violently with water to produce ammonia:

Li₃N (s) + 3 H₂O (l) в†’ 3 LiOH (aq) + NH₃ (g)

Other alkali and alkaline earth nitrides also react in this manner, due to the high basicity of the nitride. The hypothetical nitride ion, N^3в€’, would be an extremely strong Brнёnsted base, easily qualifying as a superbase. It is, in fact, a stronger base than the hydride ion, and so deprotonates hydrogen itself:

Li₃N (s) + 2 H₂ (g) в†’ LiNH₂ (s) + 2 LiH (s)

Lithium nitride is being investigated as a potential storage medium for hydrogen gas, as the reaction is reversible at 270 °C. Up to 11.5% by weight absorption of hydrogen has been achieved.^[3]

Lithium forms a small amount of lithium nitride (along with lithium oxide, lithium hydroxide, and lithium carbonate) when it is exposed to air.

References

WebElements
Greenwood, Norman N.; Earnshaw, A. (1997), Chemistry of the Elements (2nd ed.), Oxford: Butterworth-Heinemann, ISBN 0080379419

^ US patent 4888258 (1989)
^ Barker M.G., Blake A.J, Edwards P.P., Gregory D.H., Hamor T. A., Siddons D. J., Smith S. E. (1999). "Novel layered lithium nitridonickelates; effect of Li vacancy concentration on N co-ordination geometry and Ni oxidation state". Chem. Commun.: 1187-1188. doi:10.1039/a902962a.
^ Ping Chen, Zhitao Xiong, Jizhong Luo, Jianyi Lin and Kuang Lee Tan (2002). "Interaction of hydrogen with metal nitrides and imides". Nature 420 (6913): 302-304. doi:10.1038/nature01210. PMID 12447436.

v - d - e Lithium compounds

Inorganic	LiAlH₄ · LiAlO₂ · LiBF₄ · LiBH₄ · LiBO₂ · LiB₃O₅ · LiBr · LiCl · LiClO · LiClO₄ · LiCoO₂ · LiF · LiH · LiI · LiNH₂ · LiNO₃ · LiNbO₃ · LiOH · LiO₂ · LiPF₆ · LiTaO₃ · Li₂B₄O₇ · Li₂CO₃ · Li₂C₂ · Li₂MoO₄ · Li₂O · Li₂O₂ · Li₂S · Li₂SO₄ · Li₃N

Organic	acetate · citrate · diisopropylamide · orotate · succinate

Minerals	Amblygonite · Elbaite · Eucryptite · Jadarite · Lepidolite · Lithiophilite · Petalite · Pezzottaite · Saliotite · Spodumene · Sugilite · Tourmaline · Zabuyelite · Zinnwaldite

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