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Metal-Based Ionic Liquid Induced Strategy for Loading Single Atoms and the Coordination Mode Effect on CO<sub>2</sub> Photoreduction

Mei Zhang, Yao Wu, Xingwang Zhu, Pin Song, Hailong Chen, Jun Xiong, Jun Di

2024ACS Materials Letters13 citationsDOI

Abstract

The effect of single atom positions and coordination environments on photocatalytic performance is not clear. Herein, Co single atoms with surface coordination or lattice coordination mode in Bi 24 O 31 Br 10 atomic layers are presented for CO 2 photoreduction. A novel strategy based on metal-based ionic liquids is developed to prepare stable surface single atom tuned catalysts. In contrast to high-coordinated lattice-doped Co single atoms, the low-coordinated Co single atoms loaded on the catalyst surface play a crucial role in decreasing the activation energy and rate-limiting step energy barriers. The surface-modified Co single atoms work as a polarization center to drive photogenerated electron migration, accelerate reaction kinetics, and enhance CO 2 reduction activity. Benefiting from these features, Co sur -Bi 24 O 31 Br 10 exhibits a more enhanced CO 2 photoreduction performance than Bi 24 O 31 Br 10 and Co lat -Bi 24 O 31 Br 10 . This work provides insight into the effect of positions of single atoms on photocatalytic behavior and offers a strategy to load other low-coordinated surface metal single atoms.

Topics & Concepts

MetalPhotocatalysisIonic liquidMaterials scienceIonic bondingCatalysisAtom (system on chip)Chemical physicsCoordination numberIonPhotochemistryChemistryEmbedded systemBiochemistryComputer scienceOrganic chemistryMetallurgyAdvanced Photocatalysis TechniquesElectronic and Structural Properties of OxidesCatalytic Processes in Materials Science
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