通讯作者: 1. Inhibit or promote? Trade-off effect of dissolved organic matter on the laccase-mediator system. Journal of Hazardous Materials 473, 2024, 134595. 2.Coordination environment manipulation of single atom catalysts: Regulation strategies, characterization techniques and applications. Coordination Chemistry Reviews 515, 2024, 215952. 3. The photocatalytic potential of single-atom Ag with tungsten-based two-dimensional transition metal dichalcogenides substrate for harmful gas removal. Materials Today Communications 39, 2024, 109064. 4. Efficient photochemical conversion of naproxen by butanedione: Role of energy transfer. Journal of Hazardous Materials 470, 2024, 134258. 5. Synthesis optimization and adsorption modeling of biochar for pollutant removal via machine learning. Biochar 5, 2023, 25. 6. Visible light-driven oxidation of non-native substrate by laccase attached on Ru-based metal-organic frameworks. Journal of Environmental Sciences 2023, 137, 741-753. 7. Antimony (Sb) pollution control by coagulation and membrane filtration in water/wastewater treatment: A comprehensive review. Journal of Hazardous Materials 2023, 442, 130072. 8. Modeling, optimization and understanding of adsorption process for pollutant removal via machine learning: Recent progress and future perspectives. Chemosphere 2023, 311, 137044. (高被引) 9. Heterogeneous catalysis mediated by light, electricity and enzyme via machine learning: Paradigms, applications and prospects. Chemosphere 2022, 308, 136447. 另,在《环境科学》、《环境科学学报》等中文核心期刊以通讯作者发表论文8篇。 第一作者: 10. Titanium xerogel as a potential alternative for polymeric ferric sulfate in coagulation removal of antimony from reverse osmosis concentrate. Separation and Purification Technology 2022, 291, 120863. 11. Titanium coagulation simplified removal procedure and alleviated membrane fouling in treatment of antimony-containing wastewater. ACS ES&T Engineering 2021, 1 (7): 1094-1103. 12. Role of complexation in the photochemical reduction of chromate by acetylacetone. Journal of Hazardous Materials 2020, 400: 123306. 13. Key factors in the ligand effects on the photo redox cycling of aqueous iron species. Geochimica et Cosmochimica Acta 2020, 281: 1-11. 14. Reduction of chromate with UV/diacetyl for the final effluent to be below the discharge limit. Journal of Hazardous Materials 2020, 389: 121841. 15. Applicability of light sources and the inner filter effect in UV/acetylacetone and UV/H2O2 processes. Journal of Hazardous Materials 2017, 335: 100-107. 16. Effects of water chemistry on decolorization in three photochemical processes: Pro and cons of the UV/AA process. Water Research 2016, 105: 568-574. 17. Fate and implication of acetylacetone in photochemical processes for water treatment. Water Research 2016, 101: 233-240. 18. Iron in non-hydroxyl radical mediated photochemical processes for dye degradation: Catalyst or inhibitor? Chemosphere 2015, 131: 55-62. 19. The photochemistry of carbon nanotubes and its impact on the photo-degradation of dye pollutants in aqueous solutions. Journal of Colloid and Interface Science 2015, 439: 98-104. |