Litcius/Paper detail

Boosting peroxymonosulfate activation over cyanuric acid-modified Co3O4@Fe2O3 for tetracycline degradation: insights into catalytic performance, degradation mechanism, and routes

Geng Li, Guangyu Wu, Wenting Sun, Shiyu Bian, Yuwei Pan, Weinan Xing, Jiangang Han, Ming Zhang, Yudong Huang

2025Advanced Composites and Hybrid Materials20 citationsDOIOpen Access PDF

Abstract

Photocatalytic technology combined with peroxomonosulfate (PMS) advanced oxidation shows significant potential for effectively treating various challenging pollutants. In recent years, vacancy engineering has received widespread attention due to its unique electronic structure and is also considered an effective way in enhancing catalytic performance. In this work, Co-Fe bimetallic oxide composite with oxygen vacancy (O v )–rich structure (L-Co 3 O 4 @Fe 2 O 3 ) was constructed using in situ growth and modified with cyanuric acid etching to enhance dual synergistic photocatalysis and PMS activation. The findings demonstrated that the L-Co 3 O 4 @Fe 2 O 3 /PMS/UV-LED system achieved a removal rate of 99.4% tetracycline (TC) within 30 min, surpassing that of Co 3 O 4 @Fe 2 O 3 /PMS/UV-LED system. The presence of PMS as a Lewis base was found to expedite charge separation kinetics, leading to the generation of SO 4 •− and • OH radicals and enabling direct TC oxidation by efficiently separated holes. In combination with DFT calculations, the polarization properties and electric field effects of TC molecule were predicted using HOMO, LUMO, and Fukui indices. Notably, 15 intermediates were identified within this system, facilitating the accurate deduction of TC degradation pathways. This research not only introduces a novel modification strategy for developing cost-effective and environmentally friendly catalysts featuring O v but also enhances the understanding of persulfate activation mechanisms with metal-based materials.

Topics & Concepts

Degradation (telecommunications)Cyanuric acidChemistryBoosting (machine learning)CatalysisMechanism (biology)TetracyclineChemical engineeringBiochemistryMelamineOrganic chemistryComputer scienceAntibioticsEpistemologyPhilosophyTelecommunicationsEngineeringMachine learningAdvanced oxidation water treatmentAdvanced Photocatalysis TechniquesEnvironmental remediation with nanomaterials
Boosting peroxymonosulfate activation over cyanuric acid-modified Co3O4@Fe2O3 for tetracycline degradation: insights into catalytic performance, degradation mechanism, and routes | Litcius