Title of article
Hydrogen storage in rapidly solidified and crystallized Mg–Ni-(Y,La)–Pd alloys
Author/Authors
Lass، نويسنده , , Eric A.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
6
From page
9716
To page
9721
Abstract
Amorphous-crystalline composite ribbons of quaternary Mg–Ni–(Y,La)–Pd alloys are produced via rapidly solidification and used as precursors for creating nanocrystalline hydrogen storage materials. The resulting materials demonstrate relatively high hydrogen capacity of around 4.5 mass% H and excellent absorption/desorption kinetics at 573 K. Additionally, the alloys demonstrate reversible hydrogen storage at 473 K. A composition of Mg85Ni10Y2.5Pd2.5 fully absorbs and desorbs 4.6 mass% H in 90 min. The cyclability of the quaternary alloys demonstrates good stability, with little loss in maximum capacity through 8–10 cycles. This has been attributed to the improved stability of the nanocrystalline structure attained via the Y and La additions. Thermodynamically, the enthalpy of the hydrogen absorption reaction is reduced by 5 kJ/mol in the quaternary alloys, compared to Mg-MgH2; while the entropy of reaction is also reduced.
Keywords
Mg-based alloy , Hydrogen storage , metallic glass , Nanocrystalline material , metal hydride
Journal title
International Journal of Hydrogen Energy
Serial Year
2012
Journal title
International Journal of Hydrogen Energy
Record number
1671983
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