Mg-based hydrogen storage alloys have become a research hotspot in recent years owing
to their high hydrogen storage capacity, good reversibility of hydrogen …

Magnesium hydride (MgH2) has attracted intense attention worldwide as solid state
hydrogen storage materials due to its advantages of high hydrogen capacity, good …

As a high-capacity hydrogen storage material, MgH 2 still has the problem of high operating
temperature and slow reaction kinetics. In this work, an TiMn 2-based Laves phase alloy (Ti …

Due to its high hydrogen storage efficiency and safety, Mg/MgH2 stands out from many solid
hydrogen storage materials and is considered as one of the most promising solid hydrogen …

Efficient and safe storage of hydrogen is an important link in the process of hydrogen energy
utilization. Hydrogen storage with hydrogen storage materials as the medium has the …

Graphene has been identified as a promising catalyst for improving the dehydrogenation
performance of MgH 2, however, an in-depth understanding of the mechanism is still …

Magnesium hydride (MgH2) has become a very promising hydrogen storage material
because of its high hydrogen storage capacity, good reversibility and low cost. However …

MgH 2 is a very hopeful material for application as hydrogen storage material in the solid
form. This is due to its reversibility and its ability to store large amounts of hydrogen, which is …

The characteristics of MgH2 as a hydrogen storage material in this study were observed by
varying the composition of the catalyst. The added catalyst was a dual catalyst, namely …

Due to its high gravimetric capacity of hydrogen (10.5 wt%), LiAlH 4 has been regarded as a
promising material for solid-state hydrogen storage material for onboard usage. However …