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Coordination tailoring of Cu single sites on C3N4 realizes selective CO2 hydrogenation at low temperature

Yang Tang, Xinnan Mao, Ying Zhang, Xiaoping Wu, Lu Wang, Mingyu Chu, Chih‐Wen Pao, Shize Yang, Yong Xu, Xiaoqing Huang

2021Nature Communications334 citationsDOIOpen Access PDF

Abstract

Abstract CO 2 hydrogenation has attracted great attention, yet the quest for highly-efficient catalysts is driven by the current disadvantages of poor activity, low selectivity, and ambiguous structure-performance relationship. We demonstrate here that C 3 N 4 -supported Cu single atom catalysts with tailored coordination structures, namely, Cu–N 4 and Cu–N 3 , can serve as highly selective and active catalysts for CO 2 hydrogenation at low temperature. The modulation of the coordination structure of Cu single atom is readily realized by simply altering the treatment parameters. Further investigations reveal that Cu–N 4 favors CO 2 hydrogenation to form CH 3 OH via the formate pathway, while Cu–N 3 tends to catalyze CO 2 hydrogenation to produce CO via the reverse water-gas-shift (RWGS) pathway. Significantly, the CH 3 OH productivity and selectivity reach 4.2 mmol g –1 h –1 and 95.5%, respectively, for Cu–N 4 single atom catalyst. We anticipate this work will promote the fundamental researches on the structure-performance relationship of catalysts.

Topics & Concepts

SelectivityCatalysisFormateAtom (system on chip)Materials scienceCoordination numberCombinatorial chemistryChemical engineeringNanotechnologyChemistryOrganic chemistryIonComputer scienceEngineeringEmbedded systemCarbon dioxide utilization in catalysisCO2 Reduction Techniques and CatalystsCatalytic Processes in Materials Science
Coordination tailoring of Cu single sites on C3N4 realizes selective CO2 hydrogenation at low temperature | Litcius