1 |
Non-thermal plasma coupled liquid-phase catalysis /Fe2+ for VOCs removal: Enhanced mechanism of protocatechuic acid Caihong Qin, Rongrong Liu, Chaochao Jiang, Mengke Guo, Rui Yu, Jiayu Huang, Wenwen Bai, Xiaoqing Dang Journal of Industrial and Engineering Chemistry, 122, 334, 2023 |
2 |
Enhancement of the electro-Fenton degradation of organic contaminant by accelerating Fe3+/Fe2+ cycle using hydroxylamine Li D, Zheng T, Yu J, He H, Shi W, Ma J Journal of Industrial and Engineering Chemistry, 105, 405, 2022 |
3 |
Removal of gaseous toluene by nonthermal plasma coupled with wet scrubber containing Fe2+ Jiang C, Qin C, Guo M, Huang J, Yan D, Dang X Journal of Industrial and Engineering Chemistry, 113, 247, 2022 |
4 |
Structure sensitivity of iron oxide catalyst for CO2 hydrogenation Yao RW, Wei J, Ge QJ, Xu J, Han Y, Xu HY, Sun J Catalysis Today, 371, 134, 2021 |
5 |
Construction of two-dimensional bimetal (Fe-Ti) oxide/carbon/MXene architecture from titanium carbide MXene for ultrahigh-rate lithium-ion storage Wan LJ, Chua DHC, Sun HC, Chen L, Wang K, Lu T, Pan LK Journal of Colloid and Interface Science, 588, 147, 2021 |
6 |
Degradation of pyrene in contaminated water and soil by Fe2+-activated persulfate oxidation: Performance, kinetics, and background electrolytes (Cl-, HCO3- and humic acid) effects Guo JY, Gao QF, Yang SQ, Zheng F, Du BX, Wen SL, Wang DY Process Safety and Environmental Protection, 146, 686, 2021 |
7 |
Oxidation of Zhundong subbituminous coal by Fe2+/H2O2 system under mild conditions Chen S, Zhou W, Liu M, Zhao G, Cao Q, Zhao B, Kou K, Gao J Korean Journal of Chemical Engineering, 37(4), 597, 2020 |
8 |
Effect of Fe2+ adding period on the biogas production and microbial community distribution during the dry anaerobic digestion process Wang SN, Yuan RF, Liu CC, Zhou BH Process Safety and Environmental Protection, 136, 234, 2020 |
9 |
Gaseous Elemental Mercury Removal Using Combined Metal Ions and Heat Activated Peroxymonosulfate/H2O2 Solutions Liu YX, Wang Y AIChE Journal, 65(1), 161, 2019 |
10 |
Tea polyphenols promote Fenton-like reaction: pH self-driving chelation and reduction mechanism Ouyang Q, Kou FY, Zhang NQ, Lian JT, Tu GQ, Fang ZQ Chemical Engineering Journal, 366, 514, 2019 |