Fei Qi
- Last known institution:
- Beijing Forestry University
- ORCID:
- 0000-0002-9938-941X
3
h-index
0
i10-index
58
Citations
36
Works
Trends over time
Performance over time
Citation overview
Publications (bars) and citations (line) by year
- Publications
- Citations
Citation history
Publication history
h-index evolution
Cumulative h-index by year
Most-cited works
- Convective diffusion of oxidants by electro-Fenton membrane drives residual drug removal and membrane self-cleaning20243 citations
- Molecular levels unveil the membrane fouling mitigation mechanism of a superpotent N-rGO catalytic ozonation membrane: Interfacial catalytic reaction pathway and induced EfOM transformation reactions20222 citations
- Active electronic structure derived by Fe-Cl-C coordination of single-atom cathode applied in antibiotics degradation by electro-Fenton: Enhanced transformation of oxygen to hydroxyl radicals via 3-electron pathway20232 citations
- Reducing agents enhanced prometon degradation by CuBi2O4/peroxymonosulfate: Development of interfacial electron transport and circulation of Cu+/Cu2+20232 citations
- Synergistic effect by supported activated carbon between functional groups and metal oxygen vacancies: enhancing ibuprofen degradation by improving ozone mass transfer20242 citations
- Electrochemical oxidation degradation of fungicide 5-chloro-2-methyl-4-isothiazoline-3-one (CMIT) in brine of reverse osmosis by a novel Ti/CB@MXene anode20221 citations
- Navigating the complexity of pharmaceutical wastewater treatment by “effective strategy, emerging technology, and sustainable solution”20241 citations
- Advanced Purification of Pharmaceutical Wastewater by the Coupling of In Situ Electrocoagulation and Catalytic Ozonation: Multi-Field Synergistic Enhancement of Ozone Mass Transfer20251 citations
- Electrocoagulation or it coupling with ozonation for sustainable wastewater treatment: A comprehensive review of mechanisms, performance, and emerging applications20251 citations
- Superior performance of catalytic ozonation on molecular-level transformation of effluent organic matter and self-cleaning property in catalytic ozonation membrane reactor20230 citations