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In Situ Investigations on Structural Evolutions during the Facile Synthesis of Cubic α-MoC 1- x Catalysts.

Xingtao SunJiafeng YuShuo CaoAnna ZiminaBidyut Bikash SarmaJan-Dierk GrunwaldtHengyong XuShiyan LiYuefeng LiuJian Sun
Published in: Journal of the American Chemical Society (2022)
Cubic α-phase molybdenum carbides (α-MoC 1- x ) exhibit great potential in hydrogen production at low temperatures due to their excellent activity in water dissociation. However, the design strategies of α-MoC 1- x are severely restricted by the harsh synthesis conditions, which involve multistep ammonification and carburization or the utilization of a significant amount of noble metals. Herein, high-purity α-MoC 1- x synthesis in a one-step carburization process was achieved with the assistance of a trace amount of Rh (0.02%). The structural evolution of Mo species during phase transition was monitored via qualitative and quantitative analysis by in situ X-ray diffraction (XRD) and in situ X-ray absorption spectroscopy (XAS), respectively. Environmental transmission electron microscopy (ETEM) was used to follow the visual changes. We reveal that the reduction of monoclinic MoO 3 to cubic oxygen-deficient Mo oxide (MoO x ) at low temperatures owing to the promoted H 2 activation on Rh sites is vital to the following carbon atom insertion and transformation to α-MoC 1- x , making the carburization follow the topological route. The systematic analysis of the relationship between the reduction behavior and the structural evolution supplies a feasible strategy for the α-MoC 1- x synthesis, and in situ characterizations shed light on controlling the phase transformation during carburization.
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