Hydrogen-Release Reaction of a Complex Transition Metal Hydride with Covalently Bound Hydrogen and Hydride Ions

Abstract

The hydrogen-release reaction of a complex transition metal hydride, LaMg₂ NiH₇ , composed of La³⁺ , 2×Mg²⁺ , [NiH₄ ]^4- and 3×H^- , was studied by thermal analyses, powder X-ray, and neutron diffraction and inelastic neutron scattering. Upon heating, LaMg₂ NiH₇ released hydrogen at approximately 567 K and decomposed into LaH_2-3 and Mg₂ Ni. Before the reaction, covalently bound hydrogen (H^c °^v. ) in [NiH₄ ]^4- exhibited a larger atomic displacement than H^- , although a weakening of the chemical bonds around [NiH₄ ]^4- and H^- was observed. These results indicate the precursor phenomenon of a hydrogen-release reaction, wherein there is a large atomic displacement of H^c °^v. that induces the hydrogen-release reaction rather than H^- . As an isothermal reaction, LaMg₂ NiH₇ formed LaMg₂ NiH_2.4 at 503 K in vacuum for 48 h, and LaMg₂ NiH_2.4 reacted with hydrogen to reform LaMg₂ NiH₇ at 473 K under 1 MPa of H₂ gas pressure for 10 h. These results revealed that LaMg₂ NiH₇ exhibited partially reversible hydrogen-release and uptake reactions.

Keywords: complex transition metal hydride; crystal structure; inelastic neutron scattering; neutron diffraction; vibration.