Microstructure and hydrogen storage properties of melt-spun Mg-Cu-Ni-Y alloys

Microstructural and hydrogen storage properties of three nanocrystalline melt-spun Mg-base alloys (Mg₉₀Cu_2.5Ni_2.5Y₅, Mg₈₅Cu₅Ni₅Y₅ and Mg₈₀Cu₅Ni₅Y₁₀) have been investigated in view of their application as reversible hydrogen storage materials. The activation procedure and the hydrogen sorption kinetics of these alloys were studied by thermogravimetry at different temperatures in the range from 100 °C to 380 °C. It has been found that these alloys can reach reversible gravimetric hydrogen storage densities of up to 4.8 wt.%-H₂. Even at a low temperature of 100 °C, the hydrogenation kinetics of the investigated alloys is rather high in the range of 1.5 wt.%-H₂ per hour. In the hydrogenated state, these alloys consist of MgH₂, high temperature Mg₂NiH₄, Mg₂NiH_0.3, YH₂, YH₃ as well as MgCu₂. The presence of MgCu₂ indicates the reaction of Mg₂Cu with hydrogen. After repeated hydrogenation/dehydrogenation the preservation of a nanocrystalline grain structure has been confirmed by scanning electron microscopy, energy-filtered and conventional transmission electron microscopy. Additionally, the distribution of hydrogen in the hydrogenated sample was mapped by means of electron energy loss spectroscopy.