Synthesis of nanoscale CeAl₄ and its high catalytic efficiency for hydrogen storage of sodium alanate

Jian Sun，Xue-Zhang Xiao，Ze-Jun Zheng，Xiu-Lin Fan，Chen-Chen Xu，Lang-Xia Liu，Shou-Quan Li，Li-Xin Chen

State Key Laboratory of Silicon Materials, Key Laboratory of Advanced Materials and Applications for Batteries of Zhejiang Province, School of Materials Science and Engineering, Zhejiang University

摘 要：Nanoscale CeAl₄ was directly synthesized by the thermal reaction between CeH₂ and nano-aluminum at300℃.Then nano CeAl₄-doped sodium alanate（NaAlH₄）was synthesized by ball milling NaH/Al with 0.04CeAl₄under hydrogen atmosphere at room temperature,and the catalytic efficiency of nanoscale CeAl₄ for hydrogen storage of NaAlH₄ was systematically investigated.It is shown that CeAl₄ can effectively improve the dehydrogenation properties of sodium alanate system.The 0.04CeAl₄-doped NaAlH₄ system starts to release hydrogen below 80℃,completes dehydrogenation within 10 min at 170℃,and exhibits good cycling de/hydrogenation kinetics at relatively lower temperature（100-140℃）.Apparent activation energy of the dehydrogenation of NaAlH₄ can be effectively reduced by addition of CeAl₄,resulting in the decrease in desorption temperatures.Moreover,by analyzing the reaction kinetics of nano CeAl₄-doped NaAlH₄sample,both of the decomposition steps are conformed to a two-dimensional phase-boundary growth mechanism.The mechanistic investigations gained here can help to understand the de-/rehydrogenation behaviors of catalyzed complex metal hydride systems.

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