Boosting Hydroxyl Radical Yield via Synergistic Activation of Electrogenerated HOCl/H₂O₂ in Electro-Fenton-like Degradation of Contaminants under Chloride Conditions

Abstract: Hydroxyl radical production via catalytic activation of HOCl is a new type of Fenton-like process. However, metal−chlorocomplex formation under high chloride conditions could deactivate the catalyst and reduce the process efficiency. Herein, in situ electrogenerated HOCl was activated to • OH via a metal-free, B/Ncodoped carbon nanofiber cathode for the first time to degrade contaminant under high chloride condition. The results show 98% degradation of rhodamine B (RhB) within 120 min (k = 0.036 min −1 ) under… Show more

“…Under high salt stress, salt occupied the surface active sites and prevented subsequent adsorption-catalyzed degradation of organic matter. This was a typical catalyst deactivation phenomenon [10]. Reducing the adsorptive active sites while enhancing the generation of free radicals was the focus of current catalyst research and development.…”

High salinity tolerance of Zn-rich CNx in the photocatalytic treatment of wastewater

“…Under high salt stress, salt occupied the surface active sites and prevented subsequent adsorption-catalyzed degradation of organic matter. This was a typical catalyst deactivation phenomenon [10]. Reducing the adsorptive active sites while enhancing the generation of free radicals was the focus of current catalyst research and development.…”

High salinity tolerance of Zn-rich CNx in the photocatalytic treatment of wastewater

Physicochemical control technologies for emerging contaminants in sewage treatment plants

Efficient electrocatalytic H2O2 activation over nitrogen-doped carbon encapsulated Co3O4 for drinking water disinfection