Structural transitions related to order-disorder and thermal desorption of D atoms in TbFe2D4.2
Abstract
TbFe2D4.2 deuteride crystallizes in a monoclinic structure (Pc space group) with deuterium inserted into 13 [Tb2Fe2] and 5 [TbFe3] tetrahedral interstitial sites. Its structural evolution versus temperature has been investigated by combining in-situ X-ray and neutron diffraction (XRD and NPD) with differential scanning calorimetry (DSC) experiments.Upon heating, the deuteride undergoes a reversible order-disorder transition from an ordered monoclinic structure to a disordered cubic structure between 320 and 380 K. Then, a multipeak thermal desorption occurs between 400 and 550 K, which can be explained by the transitions between different cubic deuterides separated by two-phase ranges. After controlled partial D desorption of TbFe2D4.2,the XRD patterns of several TbFe2Dx deuterides were measured ex-situ using synchrotron radiation at room temperature, revealing the formation of different phases with cubic or monoclinic structures separated by two phase ranges.A tetragonal superstructure was observed for a phase with x = 2. This work can explain previous results of the literature indicating the existence of cubic and or rhombohedral hydrides depending on the hydrogenation conditions and the H content. The monoclinic structures reported here correspond to a slight distortion of the previous rhombohedral structures described by other authors.
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