Separation and Purification Technology
- ISSN:
- 1383-5866
3
h-индекс
54
Цитирования
20
Работы
0.73
Ср. цитируемость за 2 года
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Наиболее цитируемые работы
- Charge separation by switching heterojunction system from Type-II to S-scheme for enhanced photocatalytic activity: Environmental detoxification and H2 production202427 цит.
- Synthesis of a novel Z-scheme CeVO4/Bi2Sn2O7 heterojunction with dual photocatalytic functionality for CO2 conversion and pharmaceutical pollutant degradation20268 цит.
- Advances in porous materials for efficient separation and purification of flue gas20243 цит.
- Enhanced removal of per- and polyfluoroalkyl substances (PFAS) by NH₂-functionalized MOF with ex-situ grown layered double hydroxides: Mechanistic insights and adsorption behavior20253 цит.
- Synthesis of a novel Ti3C2 MXene–based nanocomposite for photocatalytic wastewater treatment and CO2 conversion: DFT analysis, mechanistic insights, and process optimization20252 цит.
- Dual-functional Z-scheme MgIn2S4/WO3 heterojunction for visible-light CO2 reduction and antibiotic degradation: Unraveling charge transfer and reaction mechanisms20262 цит.
- 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 цит.
- Highly efficient separation of CO2/N2 and CO2/CH4 via metal-ion regulation in ultra-microporous metal-organic frameworks20241 цит.
- Engineering a Z-scheme ZnFe2O4/BiVO4@MXene composite for superior photocatalytic performance: Mechanistic, DFT, and toxicity insights20251 цит.
- Visible-light-driven per- and polyfluoroalkyl substances (PFAS) wastewater treatment and H₂O₂ production using a Ce₂Sn₂O₇–Bi₃O₄Br composite supported on MXene-biochar20251 цит.