Structural changes of thin MgAl films during hydrogen desorption

We used neutron reflectometry (NR) to study the structural changes of thin Pd-capped Mg 0.7Al 0.3 and Mg 0.6Al 0.4 alloy films after hydrogen absorption and during hydrogen desorption. NR enabled us to determine the hydrogen content and hydrogen distribution in these thin MgAl alloy films along with...

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Bibliographic Details
Published in:Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment Accelerators, spectrometers, detectors and associated equipment, 2009-02, Vol.600 (1), p.301-304
Main Authors: Fritzsche, Helmut, Saoudi, Mouna, Haagsma, Julian, Ophus, Colin, Harrower, Chris T., Mitlin, David
Format: Article
Language:English
Subjects:
Hydrogen absorption
Hydrogen storage
Neutron reflectometry
Thin films
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Summary:We used neutron reflectometry (NR) to study the structural changes of thin Pd-capped Mg 0.7Al 0.3 and Mg 0.6Al 0.4 alloy films after hydrogen absorption and during hydrogen desorption. NR enabled us to determine the hydrogen content and hydrogen distribution in these thin MgAl alloy films along with the structural changes associated with the desorption process. The thin films expand by about 20% during the hydrogen absorption and the hydrogen is stored only in the MgAl layer with no hydrogen content in the Pd layer. The Mg 0.7Al 0.3 films are fully desorbed at 448 K, whereas for the Mg 0.6Al 0.4 films a temperature of 473 K is needed to fully desorb the hydrogen. Our NR measurements show that the higher annealing temperature needed to desorb the hydrogen from the Mg 0.6Al 0.4 films led to an interdiffusion of the Pd layer into the MgAl layer. This Pd interdiffusion was also observed in a Mg 0.7Al 0.3 film after a 9 h annealing at 473 K. So, the Pd interdiffusion into a MgAl film that has been charged with hydrogen is a common feature of the Pd/Mg 0.7Al 0.3 and Pd/Mg 0.6Al 0.4 alloy system. In contrast, for the as-prepared hydrogen-free Pd/Mg 0.7Al 0.3 film the Pd layer stays intact and only a small interdiffusion zone occurs at the Pd/MgAl interface.
ISSN:0168-9002
1872-9576
DOI:10.1016/j.nima.2008.11.113