Mg-based materials are one of the most promising hydrogen storage candidates due to their
high hydrogen storage capacity, environmental benignity, and high Clarke number …

High hydrogen absorption and desorption rates are two significant index parameters for the
applications of hydrogen storage tanks. The analysis of the hydrogen absorption and …

Magnesium and its alloys are significant superior metallic materials for structural
components in automobile and aerospace industries due to their excellent …

Mg-based materials have been intensively studied for hydrogen storage applications due to
their high energy density up to 2600 Wh/kg or 3700 Wh/L. However, the Mg-based materials …

Mg‐based hydrogen storage materials have drawn considerable attention as the solution for
hydrogen storage and transportation due to their high hydrogen storage density, low cost …

Magnesium hydride (MgH 2) attracts wide interests as a promising hydrogen energy carrier,
but its commercial application is hampered by the high operating temperatures and slow …

Abstract Analysis of the hydrogenation and dehydrogenation behaviors by kinetic models is
an efficient approach to the in-depth understanding of the kinetic mechanism for hydrogen …

The catalytic effect of K 2 SiF 6 on MgH 2 was first timely studied. The MgH 2+ 5 wt.% K 2 SiF
6 was prepared via the ball milling technique. The catalyst had lessened the initial …

As the world shifts toward renewable energy, the need for an effective energy carrier is
pressing. Hydrogen has often been touted as a universal clean energy vector and the fuel of …

Hydrogen is considered a good energy carrier candidate for future automotive applications
that could be part of a carbon‐free cycle. Metal hydrides are often preferred over pressurized …