The hydrogen permeability of Cu–Zr binary amorphous metallic membranes and the importance of thermal stability

Abstract We synthesized three compositions of amorphous metallic Cu–Zr (Zr=37, 54, 60 at%) membranes by splat quenching. We measured the thermal properties with differential scanning calorimetry (DSC). We tested hydrogen permeability of the membranes before and after Pd coatings. Experimentally, we found that the hydrogen permeability of the alloys is lower than that predicted by existing modeling results; we hypothesize this may be the result of oxides formed on the surface of our membranes. The formation of oxides is composition dependent. The permeability change during the testing time indicates that hydrogen has promoted structural change at a temperature lower than the glass transition temperature ( T g ). Our original experimental results show that thermal stability is critical for hydrogen separation applications in amorphous metallic membranes.