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Asymmetrical Degree Engineered Carbon Dioxide Photoreduction for Single Atomic Co Sites on Polymeric Carbon Nitride

Tongxuan Li, Zhiyuan Yang, Qingmei Xu, Tingting Sun, Xiaolin Ma, Tianyu Zheng, Yuhui Wang, Z.J. Wang, Qiheng Li, Qi Yu, Jianzhuang Jiang

2025Advanced Functional Materials7 citationsDOI

Abstract

Abstract Asymmetrical coordination engineering of the active moieties, crucial for optimizing the adsorption/desorption of intermediates, enables to enhance the catalytic performance of single‐atom catalysts (SACs) for CO 2 photoreduction. However, a universal design concept to synthesize SACs with well‐dispersed asymmetrical coordinated active metal sites is still under discussion. In addition, the regulation mechanism of the asymmetrical configuration of the active metal sites as well as the correlation establishment between the coordination asymmetry and CO 2 photoreduction activity of SACs remain have not been demonstrated. Herein, a universal marginal heteroatom doping strategy is developed to synthesize a series of Co SACs for CO 2 photoreduction by imbedding various asymmetrical Co coordination sites (CoN 4 + B, CoN 4 + P, CoN 4 + S, and CoN 4 + C) in polymeric carbon nitride (g‐C 3 N 4 ) and a concept of “asymmetrical degree” is introduced to conduct quantitative analysis of these asymmetrical Co coordination sites. The experiments combined with theoretical calculations not only definitely correlate the asymmetrical degree of Co coordination configurations with catalytic activity but also attribute the best CO 2 photoreduction activity of single CoN 4 + B site catalyst with the highest asymmetrical degree to its substantiated density of states of Co 3d orbital near the Fermi level as well as optimized *CO formation and desorption.

Topics & Concepts

Materials scienceCarbon dioxideCarbon nitrideDegree (music)NitrideCarbon fibersElectrochemical reduction of carbon dioxideChemical engineeringNanotechnologyCatalysisComposite materialOrganic chemistryCarbon monoxidePhotocatalysisChemistryEngineeringLayer (electronics)PhysicsComposite numberAcousticsAdvanced Photocatalysis TechniquesCatalytic Processes in Materials ScienceGas Sensing Nanomaterials and Sensors