Bimetal Three-Dimensional MXene Nanostructures Stabilizing Magnesium Hydrides Realize Long Cyclic Life and Faster Kinetic Rates

Abstract: Magnesium hydride (MgH 2 ) has attracted significant attention as a promising hydrogen storage material due to its large theoretical capacity (7.6 wt %); however, it suffers from high dehydrogenation temperature and poor kinetic rates, which limit its potential applications. Herein, we introduce a strategy for designing the three-dimensional (3D) dual transition metal MXene to tackle these problems simultaneously. The as-synthesized MgH 2 @3D-TiVCT x nanocomposite revealed that the dehydrogenation onset temper… Show more

“…Hydrogen is facing the challenge of finding a suitable method for storing that can be safe, affordable, effective, and lightweight. − Compared to traditional hydrogen storage methods such as high-pressure tanks and liquid storage, magnesium hydrides (MgH 2 ) have attracted much attention due to their high hydrogen capacity (7.6 wt %), high reversibility, availability in nature, and low cost. Nevertheless, the practical applications of MgH 2 are obstructed by high thermodynamic stability and slow hydrogen absorption/desorption kinetic rates. − …”

Nitrogen-Doped Graphene-Supported Nickel Nanoparticles Reveal Low Dehydrogenation Temperature and Long Cyclic Life of Magnesium Hydrides

“…Hydrogen is facing the challenge of finding a suitable method for storing that can be safe, affordable, effective, and lightweight. − Compared to traditional hydrogen storage methods such as high-pressure tanks and liquid storage, magnesium hydrides (MgH 2 ) have attracted much attention due to their high hydrogen capacity (7.6 wt %), high reversibility, availability in nature, and low cost. Nevertheless, the practical applications of MgH 2 are obstructed by high thermodynamic stability and slow hydrogen absorption/desorption kinetic rates. − …”

Nitrogen-Doped Graphene-Supported Nickel Nanoparticles Reveal Low Dehydrogenation Temperature and Long Cyclic Life of Magnesium Hydrides

Two-dimensional material MXene and its derivatives enhance the hydrogen storage properties of MgH2: A review and summary