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Adjacent single-atom irons boosting molecular oxygen activation on MnO2

Huayu Gu, Xiao Liu, Xiufan Liu, Cancan Ling, Kai Wei, Guangming Zhan, Yanbing Guo, Lizhi Zhang, Yanbing Guo, Lizhi Zhang

2021Nature Communications260 citationsDOIOpen Access PDF

Abstract

Abstract Efficient molecular oxygen activation is crucial for catalytic oxidation reaction, but highly depends on the construction of active sites. In this study, we demonstrate that dual adjacent Fe atoms anchored on MnO 2 can assemble into a diatomic site, also called as MnO 2 -hosted Fe dimer, which activates molecular oxygen to form an active intermediate species Fe(O = O)Fe for highly efficient CO oxidation. These adjacent single-atom Fe sites exhibit a stronger O 2 activation performance than the conventional surface oxygen vacancy activation sites. This work sheds light on molecular oxygen activation mechanisms of transition metal oxides and provides an efficient pathway to activate molecular oxygen by constructing new active sites through single atom technology.

Topics & Concepts

CatalysisDimerActive siteOxygenTransition metalAtom (system on chip)Molecular oxygenMaterials scienceChemistryPhotochemistryComputer scienceBiochemistryEmbedded systemOrganic chemistryCatalytic Processes in Materials ScienceElectrocatalysts for Energy ConversionCatalysis and Oxidation Reactions
Adjacent single-atom irons boosting molecular oxygen activation on MnO2 | Litcius