Abstract
Compared with titanium oxide (TiO2) and zirconium chloride (ZrCl4), cerium oxide (CeO2) significantly affects the dehydrogenation properties of lithium alanate (LiAlH4). CeO2-doped LiAlH4 samples obtained in different decomposition states were characterized by in situ X-ray diffraction, synchrotron radiation powder X-ray diffraction (PXD) data, and X-ray absorption fine structure (XAFS). PXD and XAFS analyses reveal that CeO2 is present as a cubic CeO2−x phase and behaves as a true catalyst. Ce4+ reduction affects the ability of Li to donate its charge to AlH4, thereby weakening the Al–H bond and causing hydrogen to desorb at lower temperatures. Beyond 180 °C, approximately 50% of the O atoms of the CeO2 catalyst are removed, which results in the formation of long-range disorder rhombohedral Ce7O12 phase and an opposite effect on the dynamics.
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