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W2020170516 abstract "Abstract We analyzed the elevated temperature volumetric hydrogen sorption behavior of magnesium thin films catalyzed by nano-scale bi-layers of Pd/Ta, Pd/Nb, Pd/Ti and Pd/Fe. Sorption of magnesium catalyzed by pure Pd was determined as a baseline. Sorption cycling demonstrated that when utilizing pure Pd and the Pd/Fe bi-layer catalysts the sorption kinetics of the Mg films rapidly degraded. However with the Pd/Nb, Pd/Ti and Pd/Ta bi-layer catalysts the composite remained cycleable. After multiple sorption cycles the Pd/Nb and Pd/Ti catalyst combinations possessed the fastest kinetics. X-ray diffraction analysis showed that NbH0.5 and TiH2 are formed during testing. Basic thermodynamic analysis indicates that NbH0.5 and TiH2 should be stable both during absorption and during desorption. We believe that this is why Nb and Ti are the most effective intermediate layers: The elements form stable hydrides at the Mg surfaces preventing complete Pd-Mg interdiffusion and/or acting as hydrogen catalysts and pumps." @default.
W2020170516 created "2016-06-24" @default.
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W2020170516 creator A5066197279 @default.
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W2020170516 creator A5086743052 @default.
W2020170516 date "2009-09-01" @default.
W2020170516 modified "2023-09-24" @default.
W2020170516 title "Nano-scale bi-layer Pd/Ta, Pd/Nb, Pd/Ti and Pd/Fe catalysts for hydrogen sorption in magnesium thin films" @default.
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W2020170516 doi "https://doi.org/10.1016/j.ijhydene.2009.07.026" @default.
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