Construction of Mg/Zr superlattice structure to achieve efficient hydrogen storage via atomic-scale interaction in Mg-Zr modulation films
J Qin, X Zhou, Y Fu, J Liu, H Wang, L Ouyang, M Zeng… - Acta Materialia, 2024 - Elsevier
Mg-based alloys have great potential for application owing to their high hydrogen storage
capacity but still suffer from too high temperature to absorb/desorb hydrogen due to overly …
capacity but still suffer from too high temperature to absorb/desorb hydrogen due to overly …
Hydrogen-induced magnesium–zirconium interfacial coupling: enabling fast hydrogen sorption at lower temperatures
X Ding, Y Li, F Fang, D Sun, Q Zhang - Journal of Materials Chemistry …, 2017 - pubs.rsc.org
The implementation of magnesium (Mg) as a hydrogen-storage medium has long been
restricted because of its rather sluggish hydrogen sorption at high temperatures. Here, we …
restricted because of its rather sluggish hydrogen sorption at high temperatures. Here, we …
New nanostructured phases with reversible hydrogen storage capability in immiscible magnesium–zirconium system produced by high-pressure torsion
Mg and Zr are immiscible in the solid and liquid states and do not form any binary phases. In
this study, Mg and Zr were significantly dissolved in each other by severe plastic deformation …
this study, Mg and Zr were significantly dissolved in each other by severe plastic deformation …
Phase Transformations in MgH2–TiH2 Hydrogen Storage System by High‐Pressure Torsion Process
Magnesium hydride (MgH2) and titanium hydride (TiH2) are two potential candidates for
solid‐state hydrogen storage, but strong hydride formation energy in these hydrides …
solid‐state hydrogen storage, but strong hydride formation energy in these hydrides …
[HTML][HTML] FCC phase formation in immiscible Mg–Hf (magnesium–hafnium) system by high-pressure torsion
EI López Gómez, K Edalati, DD Coimbrão… - AIP Advances, 2020 - pubs.aip.org
Magnesium and hafnium, two hydride-forming and biocompatible metals with hexagonal
close-packed crystal structures, are thermodynamically immiscible even in the liquid form. In …
close-packed crystal structures, are thermodynamically immiscible even in the liquid form. In …
Nanostructural perspective for destabilization of Mg hydride using the immiscible transition metal Mn
Phase segregation in hydride-forming alloys may persist under the action of multiple
hydrogenation/dehydrogenation cycles. We use this effect to destabilize metal hydrides in …
hydrogenation/dehydrogenation cycles. We use this effect to destabilize metal hydrides in …