Fast hydrogen sorption kinetics for ball-milled Mg 2Ni alloys ☆

Abstract

The sorption kinetics of Mg 2Ni alloys are strongly improved using two different surface treatments. One consists of the preparation of tailor-made Mg 2Ni/C composites by ball-milling with previously ground carbons. The strong reducing character of carbon, allowing for the reduction of NiO initially present at the alloy surface, leads to the partial removal of the oxide layer that strongly hinders the hydrogen migration throughout the alloy surface on desorption, whereas resulting Ni particles act as catalysts during the absorption process. The second surface treatment deals with the deposition of Pd particles on the alloy surface using the polyol process. The catalytic effect of Pd is responsible for an important enhancement of the absorption kinetic, whereas Pd particles probably act as hydrogen pumps, during the desorption process, leading to a faster hydrogen release. By combining both techniques, desorption rates as high as 2.7 wt% in 60 min and 2.9 wt% in 30 min are obtained at 150 and 200 °C, respectively.