Cobalt tetracarbonyl hydride
Cobalt tetracarbonyl hydride is an organometallic compound with the formula HCo4. It is a volatile, yellow liquid that forms a colorless vapor and has an intolerable odor. The compound readily decomposes upon melt and in absentia of high CO partial pressures forms Co2(CO)8. Despite operational challenges associated with its handling, the compound has received considerable attention for its ability to function as a catalyst in hydroformylation. In this respect, HCo4 and related derivatives have received significant academic interest for their ability to mediate a variety of carbonylation reactions.
Structure and properties
HCo4 adopts trigonal bipyramidal structure, with the hydride ligand occupying one of the axial positions, giving an overall symmetry of C3v. The three equatorial CO ligands are slightly bent out of the equatorial plane. The Co–CO and Co–H bond distances were determined by gas-phase electron diffraction to be 1.764 and 1.556 Å, respectively. Assuming the presence of a formal hydride ion, the oxidation state of cobalt in this compound is +1.But unlike some other transition-metal hydrides complexes, HCo4 is highly acidic, with a pKa of 8.5. It readily undergoes substitution by tertiary phosphines and other Lewis-bases. For example, triphenylphosphine gives HCo3PPh3 and HCo22. These derivatives are more stable than HCo4 and are used industrially to improve catalyst selectivity in hydroformylation. These derivatives are generally less acidic than HCo4.
The compound decomposes easily. It is colorless when pure, but, soon after melting, develops a yellow tinge due to decomposition to cobalt tetracarbonyl dimer.
Preparation
Tetracarbonylhydrocobalt was first described by Hieber in the early 1930s. It was the second transition metal hydride to be discovered, after H2Fe(CO)4. Laboratory samples are prepared typically from the Brønsted conjugate base, Co. The latter can be produced from direct carbonylation of cobaltous salts in base, possibly with a cysteine catalyst......or applying a reducing agent like sodium amalgam to Co2(CO)8, which gives sodium tetracarbonylcobaltate:
Since HCo4 decomposes so readily, it is usually generated in situ by hydrogenation of Co28.
The thermodynamic parameters for the equilibrium reaction were determined by infrared spectroscopy to be ΔH = 4.054 kcal mol−1, ΔS = −3.067 cal mol−1 K−1.