The MgNiCu hydrogen storage alloys were made of Mg,Ni,Cu elemental powder by mechanical alloying.

The paper studies how each the fourth addition element Al,Mn or Ti influences the hydrogen storage characteristics of MgNiCu alloys and results show that all the fourth elements could improve the initial activation condition of MgNiCu alloys to a varying degree Mn addition lowers hydriding and dehydriding plateaux and remarkably impr.

Effect of annealing on electrochemical performance of La_(0.75)Mg_(0.25)Ni_(3.5)Co_(0.4) hydrogen storage alloy;

The effects of partial substitution of MI on phase structures and properties of low Co hydrogen storage alloy;

Crystal structure and electrochemical properties of La(Ni,Sn)_(5+x)(x=0～0.35) hydrogen storage alloys;

A study on the structure and electrochemical properties of La_(0.67)Mg_(0.33)Ni_(3.0-x)Al_x(x=0,0.1,0.2,0.3) hydrogen storage alloys;

Microstructure and electrochemical properties of AB_5 type hydrogen storage alloys prepared by gas atomizing;

The effects of two-step heat treatment on properties of hydrogen storage alloys electrode;

Study of copper-microencapsulated hydrogen-storage alloy electrode;

The selective hydrogenation of carbon-carbon double bonds in acrylonitrile-butadiene rubber (NBR) solution was investigated, with the intermetallic hydrides forming from hydrogen-storage alloys LaNi 5,LaNi 4.

The electrochemistry behavior of magnesium electrode, magnesium sacrificial anode material, the Mg-based hydrogen-storage alloy electrode material, the magnesium solid state battery, the magnesium storage battery, the magnesium air battery and rechargeable magnesium battery were discussed in the paper.