Photo-thermal coupled single-atom catalysis boosting dry reforming of methane beyond thermodynamic limits over high equivalent flow

NANO ENERGY(2024)

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Abstract
Driving dry reforming of methane (DRM) reaction by photo-thermal catalysis is a more gentle, efficient and environmentally friendly process than the traditional thermal catalysis. However, the process still lacks efficient catalyst and clear reaction mechanism. In this paper, we developed a Ru-1/Mg-CeO2-NR single-atom catalyst (SAC), of which the molar fraction of syngas under photo-thermal catalysis (PTC) conditions could exceed the thermodynamic equilibrium limit of the same temperature in dark condition even at high equivalent flow rates, while achieving a molar level syngas formation rate (0.56 molgcat(-1)h(-1) for H-2 and 0.85 molgcat(-1)h(-1) for CO) at only 500 degrees C. Besides, the electron transfer path of Ru-O-Ce and its promoting effect on RDS of DRM reaction were determined by operando experiments, and the in-depth mechanism of photo-thermal synergistic catalytic reaction was also illustrated. Finally, the superiority of the Ru-1/Mg-CeO2-NR SAC configuration was investigated by density functional theory (DFT) calculation and the reversible structural evolution of Ru-O-Ce to Ru-O-v-Ce was verified, which provided the efficient and stable coordination environment for PTC-DRM reaction.
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Key words
Photo -thermal catalysis,Dry reforming of methane,Single -atom catalysts,Operando experiment,Reaction mechanism
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