Litcius/Paper detail

Degradation mechanism of tetracycline using sulfidated nanoscale zerovalent iron driven peroxymonosulfate and metabolomic insights into environmental risk of intermediates products

Xiaolong Yu, Xu Jin, Meng Li, Yuanyuan Yu, Minghan Zhu, Shaoyu Tang, Haijun Zhou, Kaifeng Wang, Rongni Dou, Jianteng Sun

2021Chemical Engineering Journal40 citationsDOI

Topics & Concepts

ChemistryZerovalent ironDemethylationDegradation (telecommunications)Humic acidCatalysisSulfideReaction mechanismEnvironmental remediationTetracyclineGlutathioneNuclear chemistryBiochemistryOrganic chemistryEnzymeContaminationAntibioticsEcologyFertilizerDNA methylationBiologyAdsorptionComputer scienceTelecommunicationsGeneGene expressionEnvironmental remediation with nanomaterialsAdvanced oxidation water treatmentArsenic contamination and mitigation
Degradation mechanism of tetracycline using sulfidated nanoscale zerovalent iron driven peroxymonosulfate and metabolomic insights into environmental risk of intermediates products | Litcius