In order to evaluate the effect of precursors and synthesis strategies on catalytic ability of Mo2C in the hydrogen evolution reaction (HER), four kinds of Mo2C were synthesized using two kinds of MoO3 by two strategies. Compared with the one-step direct carbonization strategy, Mo2C with a large special surface area and a better performance could be synthesized by the two-step strategy composed of a nitridation reaction and a carbonization reaction. Additionally, the as-prepared porous Mo2C nanobelts (NBs) exhibit good electrocatalytic performance with a small overpotential of 165 mV (0.5 M H2SO4) and 124 mV (1 M KOH) at 10 mA cm(-2), as well as a Tafel slope of 58 mV dec(-1) (0.5 M H2SO4) and 59 mV dec(-1) (1 M KOH). The excellent catalytic activity is ascribed to the nano crystallites and porous structure. What's more, the belt structure also facilitates the charge transport in the materials during the electrocatalytic HER process. Therefore, the two-step strategy provides a new insight into the structural design with superior performance for electrocatalytic HER.
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机译:为评价前驱体和合成策略对Mo2C在析氢反应(HER)中催化能力的影响,采用两种MoO3方法合成了4种Mo2C。与一步直接碳化策略相比,氮化反应和碳化反应两步法可以合成特殊表面积大、性能更好的Mo2C。此外,所制备的多孔Mo2C纳米带(NBs)表现出良好的电催化性能,在10 mA cm(-2)时具有165 mV(0.5 M H2SO4)和124 mV(1 M KOH)的小过电位,以及58 mV dec(-1) (0.5 M H2SO4)和59 mV dec(-1) (1 M KOH)的Tafel斜率。优异的催化活性归因于纳米微晶和多孔结构。此外,带状结构还促进了电催化HER过程中材料中的电荷传输。因此,两步法为电催化HER的结构设计提供了新的见解,具有优异的性能。
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