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A nonmetallic plasmonic catalyst for photothermal CO 2 flow conversion with high activity, selectivity and durability.

Xueying WanYifan LiYihong ChenJun MaYing-Ao LiuEn-Dian ZhaoYadi GuYilin ZhaoYi CuiRongtan LiDong LiuRan LongKim Meow LiewYujie Xiong
Published in: Nature communications (2024)
The meticulous design of active sites and light absorbers holds the key to the development of high-performance photothermal catalysts for CO 2 hydrogenation. Here, we report a nonmetallic plasmonic catalyst of Mo 2 N/MoO 2 -x nanosheets by integrating a localized surface plasmon resonance effect with two distinct types of active sites for CO 2 hydrogenation. Leveraging the synergism of dual active sites, H 2 and CO 2 molecules can be simultaneously adsorbed and activated on N atom and O vacancy, respectively. Meanwhile, the plasmonic effect of this noble-metal-free catalyst signifies its promising ability to convert photon energy into localized heat. Consequently, Mo 2 N/MoO 2 -x nanosheets exhibit remarkable photothermal catalytic performance in reverse water-gas shift reaction. Under continuous full-spectrum light irradiation (3 W·cm -2 ) for a duration of 168 h, the nanosheets achieve a CO yield rate of 355 mmol·gcat -1 ·h -1 in a flow reactor with a selectivity exceeding 99%. This work offers valuable insights into the precise design of noble-metal-free active sites and the development of plasmonic catalysts for reducing carbon footprints.
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