Antibiotic residues are ubiquitous in wastewater, surface water, and groundwater worldwide
with concentrations ranging from< 1 ng/L to hundreds μg/L, which pose ecological risks to …

Reports that promote persulfate-based advanced oxidation process (AOP) as a viable
alternative to hydrogen peroxide-based processes have been rapidly accumulating in recent …

Abstract Fe 3 C/Fe decorated N-doped magnetic carbon materials (denoted as Fe 3 C/Fe@
NC-x) were successfully fabricated via facile one-pot calcination of MIL-88B (Fe) with a …

Fe− Co dual-atom catalyst (FeCo− DAC) with FeCo− N 6 moiety anchored in the carbon
skeleton is fabricated to achieve a nearly 100% electron-transfer process (ETP) for high …

Environmental-friendly and low-cost catalysts for peracetic acid (PAA) activation are vital to
promote their application for micropollutant degradation in water. In this study, powdered …

Sulfate radicals are well-known for their strong oxidation potential (2.60 V), their high
reaction rate (106–109 M/s) and longer life span (t 1/2= 30–40 μs). Owing to the revealed …

Persulfate decontamination technologies either utilizing radical driven processes or direct
electron transfer are very powerful tools for the treatment of a broad range of impurities …

Metal-free carbon materials (MFCMs), as newly emerging efficient catalysts in persulfate-
based advanced oxidation process (PS-AOP), have exhibited great engineering-application …

The degradation of refractory organic compounds to harmless matters is one of the major
concerns of environmentalists. Advanced oxidation processes (AOPs) are promising …

Abstract Sulfate radical (SO 4•−)-based advanced oxidation processes (AOPs) have become
promising alternatives in environmental remediation due to the higher redox potential (2.6 …