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MoCoB metallic glass microwire catalysts for highly efficient and pH-universal degradation of wastewater

Meifang Tang, Limin Lai, Su Chen, Chunmei Li, Cheng Zhang, Shengfeng Guo

2023npj Materials Degradation12 citationsDOIOpen Access PDF

Abstract

Abstract One important goal of the current Fenton-like catalysts is to develop highly efficient and pH-universal catalysts that can operate with little performance degradation over multiple recycles. Herein, we report a ternary MoCoB metallic glass (MG) microwire catalyst, which shows exceptional Fenton-like activity for degrading various dyes in a wide pH range (5–10). Moreover, the MoCoB MG catalyst with an ultrahigh glass-transition temperature of 1002 K exhibits excellent reusability and can be used for more than 46 times without a decay in efficiency. It is regarded that the excellent catalytic activity and sustainability of the MoCoB MG catalyst originates from the bimetallic effect involving Mo n /Mo n +1 and Co n +1/ Co n cycling, which accelerates the electronic transfer kinetics, enabling the generation of multiple reactive oxygen species (•OH and •O 2 - ). First-Principles Calculations revealed again that MG catalysts provide a large electron base for the whole catalytic process.

Topics & Concepts

CatalysisBimetallic stripReusabilityDegradation (telecommunications)Chemical engineeringTernary operationMaterials scienceBase (topology)WastewaterElectron transferKineticsBase metalMetalChemistryMetallurgyWaste managementPhotochemistryOrganic chemistryComputer scienceSoftwarePhysicsMathematical analysisMathematicsEngineeringQuantum mechanicsTelecommunicationsProgramming languageWeldingNanomaterials for catalytic reactionsAdvanced Photocatalysis TechniquesCopper-based nanomaterials and applications
MoCoB metallic glass microwire catalysts for highly efficient and pH-universal degradation of wastewater | Litcius