Supercharged CO 2 Photothermal Catalytic Methanation: High Conversion, Rate, and Selectivity

To overcome the thermodynamic and kinetic impediments of the Sabatier CO 2 methanation reaction, the process must be operated under very high temperature and pressure conditions, to obtain an industrially viable conversion, rate, and selectivity. Herein, we report that these technologically relevant...

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Veröffentlicht in:	Angewandte Chemie 2023-05, Vol.135 (22)
Hauptverfasser:	Zhu, Xianglin, Zong, Huibin, Pérez, Camilo J. Viasus, Miao, Honghai, Sun, Wei, Yuan, Zhimin, Wang, Shenghua, Zeng, Guixin, Xu, Hui, Jiang, Zaiyong, Ozin, Geoffrey A.
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creator	Zhu, Xianglin Zong, Huibin Pérez, Camilo J. Viasus Miao, Honghai Sun, Wei Yuan, Zhimin Wang, Shenghua Zeng, Guixin Xu, Hui Jiang, Zaiyong Ozin, Geoffrey A.
description	To overcome the thermodynamic and kinetic impediments of the Sabatier CO 2 methanation reaction, the process must be operated under very high temperature and pressure conditions, to obtain an industrially viable conversion, rate, and selectivity. Herein, we report that these technologically relevant performance metrics have been achieved under much milder conditions using solar rather than thermal energy, where the methanation reaction is enabled by a novel nickel‐boron nitride catalyst. In this regard, an in situ generated HOB⋅⋅⋅B surface frustrated Lewis's pair is considered responsible for the high Sabatier conversion 87.68 %, reaction rate 2.03 mol g Ni −1 h −1 , and near 100 % selectivity, realized under ambient pressure conditions. This discovery bodes well for an opto‐chemical engineering strategy aimed at the development and implementation of a sustainable ‘Solar Sabatier’ methanation process.
doi_str_mv	10.1002/ange.202218694
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title	Supercharged CO 2 Photothermal Catalytic Methanation: High Conversion, Rate, and Selectivity
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