20200702，我院教师张刘挺，研究生陆雄、孙泽、颜年华等的研究成果“Superior catalytic effect of facile synthesized LaNi4.5Mn0.5 submicro-particles on the hydrogen storage properties of MgH2”在《Journal of Alloys and Compounds》上发表。

20200702，我院教师张刘挺，研究生陆雄、孙泽、颜年华等的研究成果“Superior catalytic effect of facile synthesized LaNi_4.5Mn_0.5 submicro-particles on the hydrogen storage properties of MgH₂”在《Journal of Alloys and Compounds》上发表。

论文简介如下：

Catalytic doping is an important strategy for enhancing the hydrogen storage performance of magnesium hydride. Hence, LaNi_4.5Mn_0.5submicro-particles were successfully prepared via a facile wet chemical ball milling method. To further study the catalytic performance, various amount of as-received LaNi_4.5Mn_0.5 were introduced to MgH₂ and the submicro-LaNi_4.5Mn_0.5 showed best catalytic effect on MgH₂.Specifically, experimental results showed that LaNi_4.5Mn_0.5 submicro-particles modified MgH₂ started to release hydrogen at 175 ºC, about 150 ºC lower than that of additive-free MgH₂. At 300 ºC, the composite could desorb 6.6 wt% H₂ within 6 min. Moreover, the fully dehydrogenated sample could take up hydrogen at room temperature and 4.1 wt% H₂ was charged within 10 min at 150 ºC. The apparent activation energy of MgH₂ for hydrogenation after doping submicro-LaNi_4.5Mn_0.5 was greatly reduced from 72.50±2.70to 16.63±1.40 kJ/mol. Furthermore, a hydrogen capacity of 6.1 wt% was maintained after 10 cycles. The synergetic effects between the in-situ formed Mg₂Ni/Mg₂NiH₄, Mn and LaH₃ may contribute to the promoted hydrogen dissociation and diffusion along the Mg/MgH₂ interface, thus reducing the energy barrier and enhancing the hydrogen storage performance of MgH₂.

全文下载：https://www.sciencedirect.com/science/article/pii/S0925838820324336