Abstract The high-quality Mg2(Ni1−xCux) (x = 0, 0.05, 0.1 and 0.15) compounds have been successfully prepared by the method combining solid solution with sintering process in this paper. These prepared Mg2(Ni1−xCux) compounds… Click to show full abstract
Abstract The high-quality Mg2(Ni1−xCux) (x = 0, 0.05, 0.1 and 0.15) compounds have been successfully prepared by the method combining solid solution with sintering process in this paper. These prepared Mg2(Ni1−xCux) compounds can exhibit a reversible hydrogen ab-/desorption process, which are strongly subject to the content of Cu, i.e., depending on x. When x ≤ 0.1, the single hydride of Mg2(Ni1−xCux)H4 is observed upon hydrogenation. Unfortunately, the hydrogen-induced phase decomposition would occur when x > 0.1. For instance, the Mg2(Ni0.85Cu0.15) compound absorbs hydrogen to form Mg2(Ni0.9Cu0.1)H4, Mg2Ni and MgCu2. Moreover, based on the structural analysis, the maximum solid solubility of Cu in Mg2(Ni1−xCux)H4 is determined for the first time to be about x = 0.1. The solid solubility of Cu thus leads to a significant decrease in ΔHd value from 64.4 kJ mol−1 H2 for Mg2NiH4 to 59.8 kJ mol−1 H2 for Mg2Ni0.9Cu0.1H4. This result provides an efficient route for destabilizing the hydrogen desorption of Mg2Ni-based materials.
               
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