Synergistic effect for improving the hydrogen storage capability and electrochemical performance of AB2 Laves phase alloys
He Wang, Anchun Tang, ChuBin Wan, WenXuan Yin, Yuting Wang, Xin Ju
Abstract
The structure of a series AB 2 Laves-type metal hydride alloys, in which Ce was doped into Ti 0.24 Zr 0.76 Ni 1.15 Mn 0.7 V 0.15 and annealed the alloys, was studied and correlated to hydrogen storage properties and electrochemical performances . X-ray diffraction, scanning electron microscope , and energy-dispersive spectroscopy results revealed that Ce formed a CeNi 3 secondary phase instead of entering the Laves phases . The synergistic effect of the CeNi 3 and (Ti,Zr)Ni phase improved the hydrogen storage and electrochemical discharge properties of the Ce-doped (Ce 0.02 ) alloy. Especially, the secondary phases could decrease the hydrogen absorption plateau, reduce the hysteresis phenomenon , and increase the hydrogen storage capacity (from 0.9 wt% to 1.4 wt% at 25 ℃). The formation of CeNi 3 H x hydride on the surfaces of alloy electrodes led to a higher discharge capacity (∼500 mAh/g) and a faster activation rate. The Ce 0.02 alloy also showed a good cyclic stability ∼82.08%, after 500 charge-discharge cycling, which could be ascribed to the good corrosion resistance of the CeNi 3 phase on the surface of alloy. In addition, annealing treatment promoted the depletion of (Ti,Zr)Ni secondary phase and the transformation from the C14 to C15 phase. The Ce-doped AB 2 alloy can be used as a hydrogen storage and hydride battery electrode material .