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Article Abstract
Breaking the trade-off between activity and stability in catalysts for dry reforming of methane has long remained a huge challenge. Here, we demonstrate a ternary Schottky-p-n (TSPN) heterojunction strategy based on Ni-NiO-SrNbO (NiO/SNO) for photothermal dry reforming of methane. This approach achieves a stable syngas production rate of 10.54 moles per gram per hour, with a light-to-fuel efficiency of 28.3% and a CH turnover frequency of 18 per second at 500°C generated by concentrated light irradiation. This low-temperature, high-rate activity benefits from the photoaccelerated CH-to-H process facilitated by the synergistic effect of NiO and Ni. Furthermore, the light-induced spatial separation of dual reduction sites for CO reduction (SNO) and H evolution (Ni) suppresses the reverse water-gas shift (RWGS) reaction, ensuring continuous supply of active oxygen and improving reaction stability. This finding is expected to substantially promote low-temperature photothermal catalytic technology in enhancing the selective conversion efficiency of C molecules.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12273794 | PMC |
| http://dx.doi.org/10.1126/sciadv.adv5078 | DOI Listing |
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