Mg–M–LiH alloys prepared by mechanical milling and their hydrogen storage characteristics

Mg96M2(LiH)2 (M = Y, Zn, Al, Ag), Mg98(LiH)2 and Mg96(LiH)4 powder alloys were produced by ball milling and deliberately air-exposed by 12 h in order to investigate their hydrogen storage properties. The addition of LiH at the level of 2 mol% had a beneficial effect on the kinetics of the hydriding...

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Bibliographic Details
Published in:International journal of hydrogen energy 2015-12, Vol.40 (48), p.17344-17353
Main Authors: Suárez-Alcántara, K., Palacios-Lazcano, A.F., Funatsu, T., Cabañas-Moreno, J.G.
Format: Article
Language:English
Subjects:
Hydrogen storage
Magnesium hydride
Mechanical alloying
Mg–M–LiH alloys
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Summary:Mg96M2(LiH)2 (M = Y, Zn, Al, Ag), Mg98(LiH)2 and Mg96(LiH)4 powder alloys were produced by ball milling and deliberately air-exposed by 12 h in order to investigate their hydrogen storage properties. The addition of LiH at the level of 2 mol% had a beneficial effect on the kinetics of the hydriding and dehydriding processes at 300 and 350 °C compared to mechanically milled and air-exposed Mg powders. However, the additions of Al, Ag, Zn and Y had an opposite effect on the hydriding/dehydriding kinetics. The addition of Al provided a small advantage in the capacity of hydrogen storage among the tested materials. The effects of air-exposure were analyzed, it was demonstrated that among a set of Mg and Mg-alloys heavily oxidized the hydrogen storage is still viable. •Diluted Mg96M2(LiH)2 (M = Y, Zn, Al, Ag) alloys were prepared by ball milling.•The milled materials were exposed to air for 12 h.•The milled and oxidized materials were able to store between 5.0 and 6.2 wt.% H2.•Mg-LiH materials presented acceptable hydriding/de-hydriding kinetics.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2015.04.083