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基于尖晶石型铁氧体的高级氧化技术在有机废水处理中的应用
葛明, 胡征, 贺全宝
化学进展, 2021, 33(9): 1648-1664.   DOI: 10.7536/PC200851

catalyst Synthetic
method
PMS or PDS
dosage
Catalyst
dosage
Pollutants and
degradation efficiency
ref
CoFe2O4 hydrothermal method 0.8 mM PMS 0.4 g/L ATZ 99% (30 min) 72
CoFe2O4 sol-gel method 0.5 mM PMS 0.25 g/L TPhP 99.5% (6 min) 73
CoFe2O4/Al2O3 sol-gel method 0.5 mM PMS 1.0 mM SCP 97.8% (15 min) 74
CoFe2O4/TiO2 impregnation-calcination method 4.0 g/L PMS 0.01 g/L RhB 100% (30 min)
Phenol 97.2% (60 min)
75
CoFe2O4-rGO solvothermal route 10 mg/150 mL 0.3 g/150 mL Phenol 100% (30 min) 76
CoFe2O4-GO hydrothermal method 0.5 mM PMS 0.3 g/L NOR 100% (20 min) 77
CoFe2O4-EG co-precipitation method 0.4 mM PMS 0.5 g/L SMX ~92% (20 min) 78
CoFe2O4-x hydrogen calcination method 3 mM PDS 0.1 g/L BPA 98% (60 min) 79
CuFe2O4 sol-gel combustion method 0.2 mM PMS 0.1 g/L TBBPA 99% (30 min) 80
CuFe2O4 a citrate combustion method 20 μM PMS 0.1 g/L IPM ~80% (10 min) 81
CuFe2O4 a citrate combustion method 0.5 g/L PMS 0.4 g/L BPA 100% (60 min) 82
CuFe2O4 co-precipitation-calcination method 0.5 mM PMS 0.2 g/L NOR 90% (120 min) 83
CuFe2O4 a coprecipitation method 0.2 mM PMS 0.1 g/L PCB28 89% (8 h) 84
CuFe2O4-OMS-2 a solvent-free process 0.65 mM PMS 0.2 g/L AO7 95.8% (20 min) 85
CuFe2O4-Fe2O3 a co-precipitation method 0.36 g/L PMS 0.2 g/L BPA 100% (10 min) 86
CuFe2O4/MWCNTs a sol-gel combustion method 0.6 mM PMS 0.2 g/L TMP 90% (24 min) 87
CuFe2O4-NG a hydrothermal route 1.0 g/L PMS 0.05 g/L OⅡ 100% (70 min) 88
CuFe2O4/ kaolinite a facile citrate combustion method 0.5 mM PMS 0.5 g/L BPA 100% (60 min) 89
CuFe2O4 a sol-gel combustion method 8 mM PDS 30 g/L PNP 89% (60 min) 90
CuFe2O4/MWCNTs a sol-gel combustion route 1.0 g/L PDS 0.1 g/L DEP 100% (30 min) 91
CuFe2O4-Cu a solvothermal method 1.5 g/L PDS 0.3 g/L TC 80% (120 min) 17
MnFe2O4 the nanocasting strategy 2 mM PMS 0.2 g/L OⅡ 100% (30 min) 92
MnFe2O4 - 0.1 mM PMS 0.2 g/L BPA 90% (30 min) 93
MnFe2O4 - 0.75 mM PMS 0.25 g/L TCS 100% (20 min) 94
MnFe2O4-rGO a precipitation method 0.5 g/L PMS 0.05 g/L OⅡ 90% (120 min) 95
MnFe2O4-MX a solvothermal method 0.5 g/L PMS 0.05 g/L OⅡ 100% (6 min) 96
MnFe2O4-MnO2 a hydrothermal method 0.4 g/L PMS 0.2 g/L RhB 100% (40 min) 97
MnFe2O4 thermal decomposition 0.5 g/L PDS 3 g/L Phenol 90% (360 min) 98
MnFe2O4/AC a solvothermal method 0.5 g/L PDS 0.2 g/L OG 100% (30 min) 99
CuO/MnFe2O4 an impregnation method 1.0 g/L PDS 1.0 g/L LVF 87% (120 min) 100
表3 磁性铁氧体作为催化剂的过硫酸盐氧化技术去除水中的污染物
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