Hydrogen absorption/desorption properties of the Sc(AlxNi1-x)2 system

Ångström, Jonas

January 2011

Sc(AlxNi1-x)2 is a pseudobinary C14 Laves phase and a potential interstitial hydrogen storage material or anode in a Ni-MH battery. A previous study showed that Sc1Al1Ni1 can store hydrogen reversibly; both interstitially and trough decomposition into ScH2 and AlNi. It is also known that the exact composition is very important for the hydrogen storage properties of pseudobinary Laves phases. This thesis work is aimed at synthesising Sc(AlxNi1-x)2 and study the effect of the Ni/Al ratio on the hydrogen absorption/desorption process as well as the interstitial storage capacity. Compositions with high nickel content had the highest capacity (at least 0.67wt% for ScAl0.66Ni1.34) and ones with high aluminium content had the lowest total storage capacity (0wt% for ScAl1.28Ni0.62). The former composition was also shown to absorb and desorb hydrogen during multiple cycles. Desorption of interstitial hydrogen from ScAl0.66Ni1.34 requires 4.6kJ/mol in activation energy.

hydrogen storage

Laves phases

Ni-MH batteries

intermetallic compounds

alloy

alloys

Nickel

Hydrogen

Scandium

Sc

Ni

Aluminium

Aluminum

Al

Nickel metal hydride batteries

Laves phase

vätelagrning

Lavesfaser

Ni-MH batteri

intermetalliska föreningar

legering

legeringar

nickel

väte

skandium

aluminium

Lavesfas