Hydrolysis hydrogen generation behavior of mechanico-chemical reaction Mg-M (M = Ni, Ce, and La) binary alloys—A feasible strategy for activating and improving environmental stability

Abstract

Mg-based alloys are regard to be suitable hydrolysis materials for hydrogen generation. The mechanico-chemical reaction (MCR) strategy was employed to effectively activate Mg-based binary alloys as well as elevate their environmental stability. MCR is proved to be an effective way to activate Mg-based binary alloys and enhance the ability to resist environmental toxicity. The hydrolysis H2 generation process of MCR Mg25Ni, Mg30Ce and Mg30La samples after environmental exposure are elevated and the final H2 capacities can increase to 186.1, 204.8 and 341.4 mL·g−1 with the fastest H2 generation rates of 26.0, 24.2 and 41.5 mL·g−1·min−1, respectively. The generation capacities of the above-mentioned samples are 297, 370 and 629 mL·g−1 at 318 K within 10 min, respectively. Mg-based binary alloys can be effectively activated by MCR and Maintain high reactivity at the same time. The hydrogen generation activation energies of MCR Mg25Ni, Mg30Ce and Mg30La after environmental exposure are 26.6, 30.8 and 23.3 kJ·mol−1, respectively. The above-mentioned work may provide a feasible strategy to activate the as-cast Mg-based alloys and elevate the Resistance to environmental toxicity, which may pave the way for applying the portable hydrogen generators.