A catalytic mechanism investigation of TiF₃ on hydriding/dehydriding properties of Mg₈₅Cu₅Ni₁₀ alloy

Abstract: The dehydrogenation activation energy Ea(de) of Mg85Cu5Ni10 is reduced to 81.462 from 116.767 kJ mol−1 by adding 6 wt% TiF3.

“…1,2 In contrast, hydrogen energy is considered as a potential energy solution due to its cleanliness, renewable nature and high energy density. [3][4][5] However, the safe and efficient storage makes the widespread use of hydrogen difficult. 6,7 Metal hydrides can serve as a good container for hydrogen storage due to their safety and high hydrogen storage capacity.…”

Enhanced hydrogen storage properties of ZrTiVAl_1−xFe_x high-entropy alloys by modifying the Fe content

“…1,2 In contrast, hydrogen energy is considered as a potential energy solution due to its cleanliness, renewable nature and high energy density. [3][4][5] However, the safe and efficient storage makes the widespread use of hydrogen difficult. 6,7 Metal hydrides can serve as a good container for hydrogen storage due to their safety and high hydrogen storage capacity.…”

Enhanced hydrogen storage properties of ZrTiVAl_1−xFe_x high-entropy alloys by modifying the Fe content

Study on in situ modification mechanism of mg-Ce-Y based hydrogen storage alloy by ZnF2