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Regulating the electronic structure through charge redistribution in dense single-atom catalysts for enhanced alkene epoxidation

Hongqiang Jin, Kaixin Zhou, Ruoxi Zhang, Hongjie Cui, Yu Yu, Peixin Cui, Weiguo Song, Changyan Cao

2023Nature Communications96 citationsDOIOpen Access PDF

Abstract

Abstract Inter-site interaction in densely populated single-atom catalysts has been demonstrated to have a crucial role in regulating the electronic structure of metal atoms, and consequently their catalytic performances. We herein report a general and facile strategy for the synthesis of several densely populated single-atom catalysts. Taking cobalt as an example, we further produce a series of Co single-atom catalysts with varying loadings to investigate the influence of density on regulating the electronic structure and catalytic performance in alkene epoxidation with O 2 . Interestingly, the turnover frequency and mass-specific activity are significantly enhanced by 10 times and 30 times with increasing Co loading from 5.4 wt% to 21.2 wt% in trans-stilbene epoxidation, respectively. Further theoretical studies reveal that the electronic structure of densely populated Co atoms is altered through charge redistribution, resulting in less Bader charger and higher d-band center, which are demonstrated to be more beneficial for the activation of O 2 and trans-stilbene. The present study demonstrates a new finding about the site interaction in densely populated single-atom catalysts, shedding insight on how density affects the electronic structure and catalytic performance for alkene epoxidation.

Topics & Concepts

CatalysisAlkeneRedistribution (election)Atom (system on chip)Electronic structureDensity functional theoryPhotochemistryMaterials scienceCobaltMetalChemistryComputational chemistryInorganic chemistryOrganic chemistryPoliticsEmbedded systemLawComputer sciencePolitical scienceElectrocatalysts for Energy ConversionCatalytic Processes in Materials ScienceAdvanced Photocatalysis Techniques
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