Zinc hydride


Zinc hydride is an inorganic compound with the chemical formula ZnH2. It is a white, odourless solid which slowly decomposes into its elements at room temperature; despite this it is the most stable of the binary first row transition metal hydrides.
A variety of coordination compounds containing Zn-H bonds are used as reducing agents, however ZnH2 itself has no common applications.

Discovery and synthesis

Zinc hydride was first synthesised in 1947 by Hermann Schlesinger, via a reaction between dimethylzinc and lithium aluminium hydride; a process which was somewhat hazardous due to the pyrophoric nature of Zn2.
Later methods were predominantly salt metathesis reactions between zinc halides and alkali metal hydrides, which are significantly safer. Examples include:
Small quantities of gaseous zinc hydride have also been produced by laser ablation of zinc under a hydrogen atmosphere and other high energy techniques. These methods have been used to assess its gas phase properties.

Chemical properties

Structure

New evidence suggests that in zinc hydride, elements form a one-dimensional network, being connected by covalent bonds. Other lower metal hydrides polymerise in a similar fashion. Solid zinc hydride is the irreversible autopolymerisation product of the molecular form, and the molecular form cannot be isolated in concentration. Solubilising zinc hydride in non-aqueous solvents, involve adducts with molecular zinc hydride, such as ZnH2 in liquid hydrogen.

Stability

Zinc hydride slowly decomposes to metallic zinc and H2 at room temperature, with decomposition becoming rapid if it is heated above 90°C.
It is readily oxidised and is sensitive to both air and moisture; being hydrolysed slowly by water but violently by aqueous acids, which indicates possible passivation via the formation of a surface layer of ZnO. Despite this older samples may be pyrophoric. Zinc hydride can therefore be considered metastable at best, however it is still the most stable of all the binary first row transition metal hydrides.

Molecular form

Molecular zinc hydride, ZnH2, was recently identified as a volatile product of the acidified reduction of zinc ions with sodium borohydride. This reaction is similar to the acidified reduction with lithium aluminium hydride, however a greater fraction of the generated zinc hydride is in the molecular form. This can be attributed to a slower reaction rate, which prevents a polymerising concentration of building over the progression of the reaction. This follows earlier experiments in direct synthesis from the elements. The reaction of excited zinc atoms with molecular hydrogen in the gas phase was studied by Breckenridge et al using laserpump-probe techniques. Owing to its relative thermal stability, molecular zinc hydride is included in the short list of molecular metal hydrides, which have been successfully identified in the gas phase.
The average Zn-H bond energy was recently calculated to be 51.24 kcal mol−1, while the H-H bond energy is 103.3 kcal mol−1. Therefore, the overall reaction is nearly ergoneutral.
Molecular zinc hydride in the gas phase was found to be linear with a Zn-H bond length of 153.5 pm.
The molecule can be found a singlet ground state of 1Σg+.
Quantum chemical calculations predict the molecular form to exist in a doubly hydrogen-bridged, dimeric groundstate, with little or no formational energy barrier.The dimer can be described as di-μ-hydrido-bis, according to IUPAC additive nomenclature.