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Electronic Structure Reconfiguration of Zn‐N <i> <sub>x</sub> </i> B <sub>4‐</sub> <i> <sub>x</sub> </i> Sites for Enhanced Fenton‐Like Catalysis

Xiao Ge, J. Xu, Tao Zhou, Li‐Jiao Tian, Wei Wang, Xing Xu, Jie‐Jie Chen, Xiaozhi Wang

2025Angewandte Chemie International Edition10 citationsDOI

Abstract

Abstract Despite growing interest in single‐atom catalysts (SACs) for Fenton‐like reactions, zinc (Zn)‐based SACs remain unexplored due to the inherent inertness of Zn 2+ , whose fully occupied 3d 10 electronic configuration limits redox activity. Here, we overcome this limitation by introducing boron (B) atoms to reconfigure the electronic structure of Zn‐N 4 coordination sites, yielding an activated catalyst denoted as Zn‐NBC. This electronic modulation transforms inert Zn‐N 4 sites into catalytically active centers (Zn‐N x B 4‐ x ), enabling significantly enhanced Fenton‐like activity. Compared to the unmodified Zn‐N 4 catalyst (Zn‐N 4 C), Zn‐NBC exhibits a 26‐fold increase in the rate of organic pollutant degradation. Density functional theory (DFT) calculations and experimental results reveal that Zn‐N 4 C and Zn‐NBC exhibit distinct PDS adsorption behaviors, with B incorporation tuning both adsorption strength and electronic interactions at the Zn center. Crystal orbital Hamilton population (COHP) analysis further demonstrates that the Zn‐NBC facilitates the activation of the S─O bonds in peroxydisulfate (PDS), promoting the generation of reactive oxygen species, including peroxide radicals and singlet oxygen. These findings establish a new paradigm for activating electronically inert metal centers and position Zn‐NBC as a promising platform for efficient and sustainable environmental remediation.

Topics & Concepts

CatalysisElectronic structureDensity functional theoryChemistryAdsorptionControl reconfigurationInorganic chemistryDopantRedoxPhotochemistryPopulationSinglet oxygenOxygenChemical physicsNanotechnologyHeterogeneous catalysisMetalInertBoronRadicalMaterials sciencePeroxideElectronic effectHalideChromophoreCrystal structureZincTransition metalComputational chemistryAdvanced Photocatalysis TechniquesAdvanced oxidation water treatmentAdvanced battery technologies research