Title: Sorption behavior of the MgH2Mg2FeH6 hydride storage system synthesized by mechanical milling followed by sintering
Authors: Puszkiel, Julián A.
Gennari, Fabiana C.
Larochette, Pierre Arneodo
Karimi, Fahim
Pistidda, Claudio
Gosalawit-Utke, Rapee
Jepsen, Julian 
Jensen, Torben René
Gundlach, Carsten
Bellosta von Colbe, José M.
Klassen, Thomas 
Dornheim, Martin
Language: eng
Issue Date: 13-Nov-2013
Publisher: Elsevier
Document Type: Article
Source: In: International journal of hydrogen energy / International Association for Hydrogen Energy. - New York, NY [u.a.] : Elsevier, 1976-. - Bd. 38.2013, 34, Seite 14618-14630
Journal / Series / Working Paper (HSU): International journal of hydrogen energy
Volume: 38
Issue: 34
Page Start: 14618
Page End: 14630
Publisher Place: New York, N.Y.
Abstract: 
The hydrogen sorption behavior of the Mg2FeH6- MgH2 hydride system is investigated via in-situ synchrotron and laboratory powder X-ray diffraction (SR-PXD), differential scanning calorimetry (DSC), scanning electron microscopy (SEM), particle size distribution (PSD) and volumetric techniques. The Mg2FeH6-MgH2 hydride system is obtained by mechanical milling in argon atmosphere followed by sintering at high temperature and hydrogen pressure. In-situ SR-PXD results show that upon hydriding MgH2 is a precursor for Mg2FeH 6 formation and remained as hydrided phase in the obtained material. Diffusion constraints preclude the further formation of Mg2FeH 6. Upon dehydriding, our results suggest that MgH2 and Mg2FeH6 decompose independently in a narrow temperature range between 275 and 300 C. Moreover, the decomposition behavior of both hydrides in the Mg2FeH6-MgH2 hydride mixture is influenced by each other via dual synergetic-destabilizing effects. The final hydriding/dehydriding products and therefore the kinetic behavior of the Mg 2FeH6-MgH2 hydride system exhibits a strong dependence on the temperature and pressure conditions. © 2013, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.
Organization Units (connected with the publication): Werkstoffkunde 
ISSN: 0360-3199
Verlags-DOI: 10.1016/j.ijhydene.2013.08.068
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