Interface and body engineering via aluminum hydride enabling Ti-V-Cr-Mn alloy with enhanced hydrogen storage performance

Chemical Engineering Journal(2023)

引用 4|浏览7
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摘要
•The migration barrier of H atoms of composites decreased significantly.•Reversible capacity of composites reached 1.096 wt% at 298 K.•Activation energy (Ea) value of composites reduced triple compared to the as-cast alloy.•Excellent resistance to pulverization.
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关键词
V-based solid solution,AlH3,First-principles,Activation energy,Hydrogen storage performance
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