Uranium borohydride


Uranium borohydride is the inorganic compound with the empirical formula U4. Two polymeric forms are known, as well as a monomeric derivative that exists in the gas phase. Because the polymers convert to the gaseous form at mild temperatures, uranium borohydride once attracted much attention. It is solid green.

Structure

It is a homoleptic coordination complex with borohydride. These anions can serve as bidentate bridges between two uranium atoms or as tridentate ligands on single uranium atoms. In the solid state, a polymeric form exists that has a 14-coordinate structure with two tridentate terminal groups and four bidentate bridging groups. Gaseous features a monomeric 12-coordinate uranium, with four κ3-BH4 ligands, which envelop the metal, conferring volatility.
of one of two forms of polymeric U4.

Preparation

This compound was first prepared by treating uranium tetrafluoride with aluminium borohydride:
It may also be prepared by the solid-state reaction of uranium tetrachloride with lithium borohydride:
Although solid U4 is a polymer, it undergoes cracking, converting to the monomer.
The related methylborohydride complex U4 is monomeric as a solid and hence more volatile.

History

During the Manhattan Project, the need arose to find volatile compounds of uranium suitable for use in the diffusion separation of uranium isotopes. Uranium borohydride is, after uranium hexafluoride, the most volatile compound of uranium known with a vapor pressure of at 60 °C. Uranium borohydride was discovered by Hermann Irving Schlesinger and Herbert C. Brown, who also discovered sodium borohydride.
Uranium hexafluoride is corrosive, which led to serious consideration of the borohydride. However, by the time the synthesis method was finalized, the problems related to uranium hexafluoride were solved. Borohydrides are nonideal ligands for isotope separations, since there are isotopes of boron that occur naturally in high abundance: 10B and 11B, while fluorine-19 is the only isotope of fluorine that occurs in nature in more than trace quantities.