Chromium(II) hydride

Chromium hydride, systematically named chromium dihydride and poly is pale brown solid inorganic compound with the chemical formula . Although it is thermodynamically unstable toward decomposition at ambient temperatures, it is kinetically metastable.
Chromium hydride is the second simplest polymeric chromium hydride. In metallurgical chemistry, chromium hydride is fundamental to certain forms of chromium-hydrogen alloys.

Nomenclature

The most common name for chromium hydride is chromium dihydride, following the IUPAC compositional nomenclature. Because the compositional name does not distinguish between different compounds with stoichiometry, "chromium dihydride" is ambiguous between an unstable molecular species and the metastable polymeric form.

Monomer

The chromium hydride monomer, is both thermodynamically and kinetically unstable towards autopolymerization at ambient temperature, and so cannot be concentrated. Nevertheless, molecules of and have been isolated in solid gas matrices.
Cr is the second simplest molecular chromium hydride. In the presence of pure hydrogen, dihydridochromium readily converts to bisdihydridochromium, CrH₂₂ in an exothermic reaction.

Properties

Structure

In diluted CrH₂, the molecules are known to oligomerise forming at least Cr₂H₄, being connected by covalent bonds. The dissociation enthalpy of the dimer is estimated to be 121 kJ mol⁻¹. CrH₂ is bent, and is weakly repulsive to one hydrogen molecule, but attractive to two molecules of hydrogen. The bond angle is 118±5°. The stretching force constant is 1.64 mdyn / Å. The dimer has a distorted rhombus structure with C_2h symmetry.

Production

The dimer is produced synthetically by hydrogenation. In this process, chromium and hydrogen react according to the reaction:
This process involves atomic chromium as an intermediate, and occurs in two steps. The hydrogenation is a spontaneous process.

Cr → Cr
Cr + → HCr₂CrH

In an inert gas matrix atomic Cr reacts with H₂ to make the dihydride when it is irradiated with ultraviolet light between 320 and 380 nm. The reaction of chromium with molecular hydrogen is endothermic. 380 nm or greater wavelength radiation is required to procure photochemically generated CrH₂.

History

In 1979 the simplest molecular chromium hydride with the chemical formula was synthesised and identified for the first time. It was synthesised directly from the elements, in a reaction sequence which consisted of simultaneous sublimation of chromium to atomic chromium and thermolysis of hydrogen, and concluded with co-deposition in a cryogenic argon matrix to form dihydridochromium.
In 2003 the dimer with the chemical formula HCr₂CrH was synthesised and identified for the first time. It was also synthesised directly from the elements, in a reaction sequence which consisted of laser ablation of chromium to atomic chromium, followed by co-deposition with hydrogen in a cryogenic matrix to produce dihydridochromium, and concluded with annealing to form.