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Mn−Ce Symbiosis: Nanozymes with Multiple Active Sites Facilitate Scavenging of Reactive Oxygen Species (ROS) Based on Electron Transfer and Confinement Anchoring

Juan Zhang, Zhihua Wang, Xingen Lin, Xiaoping Gao, Qiuping Wang, Rui Huang, Yaner Ruan, Haonan Xu, Lin Tian, Chen Ling, Ran Shi, Suowen Xu, Kong Chen, Yuen Wu

2024Angewandte Chemie International Edition100 citationsDOI

Abstract

Abstract Regulating appropriate valence states of metal active centers, such as Ce 3+ /Ce 4+ and Mn 3+ /Mn 2+ , as well as surface vacancy defects, is crucial for enhancing the catalytic activity of cerium‐based and manganese‐based nanozymes. Drawing inspiration from the efficient substance exchange in rhizobia‐colonized root cells of legumes, we developed a symbiosis nanozyme system with rhizobia‐like CeO x nanoclusters robustly anchored onto root‐like Mn 3 O 4 nanosupports (CeO x /Mn 3 O 4 ). The process of “substance exchange” between Ce and Mn atoms—reminiscent of electron transfer—not only fine‐tunes the metal active sites to achieve optimal Ce 3+ /Ce 4+ and Mn 3+ /Mn 2+ ratios but also enhances the vacancy ratio through interface defect engineering. Additionally, the confinement anchoring of CeO x on Mn 3 O 4 ensures efficient electron transfer in catalytic reactions. The final CeO x /Mn 3 O 4 nanozyme demonstrates potent catalase‐like (CAT‐like) and superoxide dismutase‐like (SOD‐like) activities, excelling in both chemical settings and cellular environments with high reactive oxygen species (ROS) levels. This research not only unveils a novel material adept at effectively eliminating ROS but also presents an innovative approach for amplifying the efficacy of nanozymes.

Topics & Concepts

Reactive oxygen speciesElectron transferCeriumCatalysisChemistryRhizobiaOxygenCatalaseNanotechnologyPhotochemistryBiophysicsMaterials scienceAntioxidantInorganic chemistryBiochemistryNitrogen fixationBiologyNitrogenOrganic chemistryAdvanced Nanomaterials in CatalysisNanoparticles: synthesis and applicationsNanocluster Synthesis and Applications
Mn−Ce Symbiosis: Nanozymes with Multiple Active Sites Facilitate Scavenging of Reactive Oxygen Species (ROS) Based on Electron Transfer and Confinement Anchoring | Litcius