Table 2 The summary of catalytic performances and reaction conditions in EF systems
From: Site-designed dual-active-center catalysts for co-catalysis in advanced oxidation processes
Dual-active-center co-catalysts | Reaction Conditions | Pollutants/Concentrations | Removal Efficiency | Refer. |
|---|---|---|---|---|
C3-Fe-Cl2 SACs | Time: 40 min; pH: 3; Applied potential: −0.1 V vs. SCE | Sulfamethoxazole/ 30 mg L−1 | ~98% | |
CoFe DACs | Time: 40 min; pH: 3; Applied potential:−0.6 V vs. SCE | Phenol/ 5 mg L−1 | ~100% | |
CoFe DACs | Time: 15 min; pH: 3; Applied potential: −0.43 V vs. RHE | Bisphenol A/ 20 mg L−1 | ~100% | |
Mo-Fe Clusters | Time: 30 min; pH: 3.5; Applied potential: −1.0 V vs. RHE | ibuprofen/ 2 mg L−1 | ~83% | |
FeCo Clusters | Time: 5 min; pH: 3; Applied current: 2.5 mA cm−2 | Ciprofloxacin/ 10 mg L−1 | ~100% | |
N-doped biochar | Time: 120 min; pH: 7; Applied current: 4.0 mA cm−2 | Tetracycline/ 100 mg L−1 | ~70.42% | |
N-doped activated carbon | Time: 60 min; pH: 7; Applied potential: −0.7 V vs. SCE | Sulfamethazine/ 100 mg L−1 | ~96.4% |
