Fe (VI) activation system mediated by a solar-driven TiO2 nanotubes electrode for CLQ degradation: performances, mechanisms and pathways
J Li, C Fu, Q Lin, T Zeng, D Wang, X Huang… - Journal of Hazardous …, 2023 - Elsevier
Abstract Ferrate (Fe (VI), FeO 4 2-) has been widely used in the degradation of
micropollutants with the advantages of high redox potential, no secondary pollution and …
micropollutants with the advantages of high redox potential, no secondary pollution and …
Fe(VI) activation system mediated by a solar-driven TiO2 nanotubes electrode for CLQ degradation: Performances, mechanisms and pathways
J Li, C Fu, Q Lin, T Zeng, D Wang… - Journal of …, 2023 - ui.adsabs.harvard.edu
Abstract Ferrate (Fe (VI), FeO 4 2-) has been widely used in the degradation of
micropollutants with the advantages of high redox potential, no secondary pollution and …
micropollutants with the advantages of high redox potential, no secondary pollution and …
Fe(VI) activation system mediated by a solar-driven TiO2 nanotubes electrode for CLQ degradation: performances, mechanisms and pathways.
J Li, C Fu, Q Lin, T Zeng, D Wang, X Huang, S Song… - 2023 - cabidigitallibrary.org
Abstract Ferrate (Fe (VI), FeO42-) has been widely used in the degradation of
micropollutants with the advantages of high redox potential, no secondary pollution and …
micropollutants with the advantages of high redox potential, no secondary pollution and …
Fe (VI) activation system mediated by a solar-driven TiO2 nanotubes electrode for CLQ degradation: Performances, mechanisms and pathways
J Li, C Fu, Q Lin, T Zeng, D Wang… - Journal of …, 2023 - pubmed.ncbi.nlm.nih.gov
Ferrate (Fe (VI), FeO 4 2-) has been widely used in the degradation of micropollutants with
the advantages of high redox potential, no secondary pollution and inhibition of disinfection …
the advantages of high redox potential, no secondary pollution and inhibition of disinfection …