Efficient hydrogen storage with the combination of lightweight Mg/MgH₂ and nanostructures

Cheng, Fangyi; Tao, Zhanliang; Liang, Jing; Chen, Jun

Efficient hydrogen storage with the combination of lightweight Mg/MgH₂ and nanostructures

2012

Cheng, Fangyi | Tao, Zhanliang | Liang, Jing | Chen, Jun

Efficient hydrogen storage plays a key role in realizing the incoming hydrogen economy. However, it still remains a great challenge to develop hydrogen storage media with high capacity, favourable thermodynamics, fast kinetics, controllable reversibility, long cycle life, low cost and high safety. To achieve this goal, the combination of lightweight materials and nanostructures should offer great opportunities. In this article, we review recent advances in the field of chemical hydrogen storage that couples lightweight materials and nanostructures, focusing on Mg/MgH₂-based systems. Selective theoretical and experimental studies on Mg/MgH₂ nanostructures are overviewed, with the emphasis on illustrating the influences of nanostructures on the hydrogenation/dehydrogenation mechanisms and hydrogen storage properties such as capacity, thermodynamics and kinetics. In particular, theoretical studies have shown that the thermodynamics of Mg/MgH₂ clusters below 2 nm change more prominently as particle size decreases.

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