Ball Milling Innovations Advance Mg-Based Hydrogen Storage Materials Towards Practical Applications

Abstract: Mg-based materials have been widely studied as potential hydrogen storage media due to their high theoretical hydrogen capacity, low cost, and abundant reserves. However, the sluggish hydrogen absorption/desorption kinetics and high thermodynamic stability of Mg-based hydrides have hindered their practical application. Ball milling has emerged as a versatile and effective technique to synthesize and modify nanostructured Mg-based hydrides with enhanced hydrogen storage properties. This review provides a compre… Show more

“…These surface atoms can act as additional adsorption sites for hydrogen molecules, thereby enhancing the storage capacity. Second, the increased surface energy and curvature of nanoparticles can modulate the electronic structure and reactivity of the material, facilitating hydrogen adsorption and dissociation [ 21 ]. Third, the nanoscale confinement effect can alter the thermodynamics and kinetics of hydrogen sorption reactions, enabling faster kinetics and improved reversibility [ 22 ].…”

Advances and Prospects of Nanomaterials for Solid-State Hydrogen Storage

“…These surface atoms can act as additional adsorption sites for hydrogen molecules, thereby enhancing the storage capacity. Second, the increased surface energy and curvature of nanoparticles can modulate the electronic structure and reactivity of the material, facilitating hydrogen adsorption and dissociation [ 21 ]. Third, the nanoscale confinement effect can alter the thermodynamics and kinetics of hydrogen sorption reactions, enabling faster kinetics and improved reversibility [ 22 ].…”

Advances and Prospects of Nanomaterials for Solid-State Hydrogen Storage