Synthesis and electrode characteristics of the new composite alloys Mg2Ni-xwt.% Ti2Ni

A new composite alloy Mg₂Ni-xwt.% Ti₂Ni has been successfully synthesised using a ‘particle inlaying’ method. Scanning electron microscopy and energy dispersive spectroscopy revealed that very fine Ti₂Ni particles were inlaid onto the surface of Mg₂Ni particles by mechanical treatment and sintering. XRD showed the composite alloys were composed of primary alloys Mg₂Ni, Ti₂Ni and new phases TiNi, Ti---Mg formed in the composite procedure. The electrode characteristics of Mg₂Ni-xwt.% Ti₂Ni alloys in an alkaline solution have been investigated and compared with those of Mg₂Ni. The discharge capacity of the alloy electrode was effectively improved from 8 mA h g¹ of Mg₂Ni to 165 mA h g¹ of Mg₂Ni-40wt.% Ti₂Ni at ambient temperature, which is almost comparable with that of Ti₂Ni electrode (170 mA h g¹). It is believed that the fine Ti₂Ni particles inlaid on the surface of Mg₂Ni particles play a two-fold role: firstly, they hydride-dehydride as hydrogen storage materials themselves: secondly, they provide active sites and pathways for Mg₂Ni hydriding-dehydriding. This is supported by analysis of discharge behaviour and electrochemical impedance spectra studies.