Li-triggered superior catalytic activity of V in Li3VO4: enabling fast and full hydrogenation of Mg at lower temperatures

Li-triggered superior catalytic activity of V in Li3VO4: enabling fast and full hydrogenation of Mg at lower temperatures

Magnesium-based hydrides are promising hydrogen storage materials; however, little progress has been achieved in improving hydrogen storage performance under ambient conditions, consequently impeding further commercial application. Herein, a lithium rich transition metal oxide, Li3VO4 has been emplo...

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Veröffentlicht in:Journal of materials chemistry. A, Materials for energy and sustainability Materials for energy and sustainability, 2020-08, Vol.8 (30), p.14935-14943
Hauptverfasser: Zang, Jiahe, Wang, Shaofei, Wang, Fang, Long, Ziyao, Mo, Fangjie, Xia, Yuanhua, Fang, Fang, Song, Yun, Sun, Dalin
Format: Artikel
Sprache:eng
Schlagworte:
Catalytic activity
Diffusion layers
Hydrides
Hydrogen
Hydrogen storage materials
Hydrogenation
Lithium
Magnesium
Neutron diffraction
Storage
Storage systems
Structural stability
Transition metal oxides
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