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Microstructural and kinetic evolution of Fe doped MgH2 during H2 cycling

TitleMicrostructural and kinetic evolution of Fe doped MgH2 during H2 cycling
Publication TypeArticolo su Rivista peer-reviewed
Year of Publication2012
AuthorsMontone, Amelia, Aurora A., Mirabile Gattia Daniele, and Antisari M.V.
JournalCatalysts
Volume2
Pagination400-411
ISSN20734344
Abstract

The effect of extended H2 sorption cycles on the structure and on the hydrogen storage performances of MgH2 powders with 5 wt% of Fe particle catalyst is reported. MgH2 powders with and without Fe have been ball milled under Argon, the doped MgH2 nanocomposite has been cycled under hydrogen pressure up to a maximum of 47 desorption and absorption cycles at 300 °C. After acceleration during the first 10 cycles, the kinetics behavior of doped MgH2 is constant after extended cycling, in terms of maximum storage capacity and rate of sorption. The major effect of cycling on particle morphology is the progressive extraction of Mg from the MgO shell surrounding the powder particles. The Mg extraction from the MgO shell leaves the catalyst particles inside the hydride particles. Many empty MgO shells are observed in the pure ball milled MgH2 upon cycling at higher temperature, suggesting that this enhancement of the extraction efficiency is related to the higher operating temperature which favors Mg diffusivity with respect to the H ion one. © 2012 by the authors; licensee MDPI, Basel, Switzerland.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84882617124&doi=10.3390%2fcatal2030400&partnerID=40&md5=f33439626da3970e4d33baa110c5b4ba
DOI10.3390/catal2030400
Citation KeyMontone2012400