[2P02] In situ reduction of ReOx-Au/CeO2 catalyst by hydrogen under near ambient pressure conditions
The utilization of biomass-derived polyols includes the conversion to alkene molecules through a means known as deoxy-dehydration (DODH) reaction. In this reaction, ReOx-Au/CeO2 catalyst demonstrates activity. It is believed that hydrogen spillover is involved in the catalytic reaction. In this study, the chemical state of Re while flowing hydrogen gas were measured using NAP-XPS. Then we calculate the diffusion coefficient of hydrogen gas and model hydrogen diffusion. We tracked the time-dependent change in the ReOx-Au/CeO2 model catalyst under a hydrogen gas atmosphere (100 ℃,140 ℃ and 250 ℃,0.1 Torr) using NAP-XPS. Over time in a hydrogen atmosphere, the oxidation state of Re was reduced from 7+ to 6+ and 4+, while 2+ and 0 were not observed. The higher reduction rate observed at 250 ºC suggest that direct reduction of ReOx by molecular hydrogen might contribute dominantly at such a high temperature. While at low temperatures below 150 ºC, where the hydrogen spillover takes place.
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