Abstract:Within the framework of density functional theory, crystal structure parameters, physical properties, electronic structures and thermal stability of Mg₂CoH₅ complex hydride are comprehensively investigated. The optimized structural parameters including lattice constants, atomic positions and bond lengths are well close to the experimental data determined from X-ray and neutron powder diffraction. A detailed study on the energy band, density of states (DOS) and charge density distribution shows the orbital hybridization and bonding characteristics of the complex hydride. It is found that Mg₂CoH₅ is a semiconductor with a pseudo-gap of about 1.638 1 eV, and there is a mixed ionic-covalent bonding between Co and H in CoH₅ complexes embedded in the matrix Mg²⁺ cations. The calculated formation enthalpy of Mg₂CoH₅ is in good agreement with the experimentally determined value.

Key words: Mg₂CoH₅; density functional theory; electronic structure; formation enthalpy