Promising hydrogen storage properties of cost-competitive La(Y)-Mg-Ca-Ni AB-type alloys for stationary applications

In this paper, La (0.65− x ) Y x Mg 1.32 Ca 1.03 Ni 9 ( x = 0, 0.05, 0.20, 0.40, 0.60) alloys were prepared by an induction melting method, and the effects of Y substitution on the hydrogen storage properties were systematically investigated. The results showed that the hydrogen sorption plateau pressures could be easily tailored by altering the Y amount, and the effective hydrogen desorption capacities at 0.1 MPa H 2 below 80 °C could be greatly promoted with the optimal amount of Y substitution. In addition, the cost of the prepared alloys is quite low due to the absence of high price rare earth metals. Therefore, the cost-competitive La(Y)-Mg-Ca-Ni AB 3 -type alloys prepared in this study successfully meet the demands of proton-exchange membrane fuel cells and other stationary apparatus, showing broad application potential. The effective hydrogen storage properties of cost-competitive AB 3 -type alloys are quite large, which can be coupled with fuel cells.