- [1] Exceptional formaldehyde oxidation at room temperature on Co single-atom functionalized TiO2 nanowires via highly effective O2 activation.Applied Catalysis B:Environmental,2024,344(5):123634.
- [2] Enhanced simultaneous oxidation of Hg0 and NO with SO2 resistance by dual single-atom Co-Cu incorporated g-CN nanocomposites.Chemical Engineering Journal,2024,480148194.
- [3] Enhanced catalytic oxidation of benzene though the synergistic Pt-Ni bimetallic single-atom catalysts.Chemical Engineering Journal,2024,480148361.
- [4] Design and construction of an O-Au-O coordination environment in Au single atom-doped Ti4+ defected TiO2 for an enhanced oxidative ability of lattice oxygen for Hg0 oxidation.Chemical Engineering Journal,2023,451138895.
- [5] Au single atom supported on TiO2 drives hole mitigation for the enhanced photooxidation of Hg0.Journal of Physics Chemistry C,2023,127(3):1415-1429.
- [6] Surface design of g-C3N4 quantum dot-decorated TiO2(001) to enhance the photodegradation of indoor formaldehyde by experimental and theoretical investigation.Ecotoxicology and Environmental Safety,2022,234113411.
- [7] Experimental and theoretical investigation of the enhancement of the photo-oxidation of Hg0 by CeO2-modified morphology-controlled anatase TiO2.Journal of Hazardous Materials,2021,406124535.
- [8] A facile preparation of highly dispersed ultrasmall CeO2 clusters on g-C3N4 decorated TiO2 for efficient photooxidation of Hg0.Applied Surface Science,2022,589153048.
- [9] Remarkable performance of N-doped carbonization modified MIL-101 for low-concentration benzene adsorption.Separation and Purification Technology,2022,289120784.
- [10] Improvement of water resistance by Fe2O3/TiO2 photoelectrocatalysts for formaldehyde removal: Experimental and theoretical investigation.Environmental Science Pollution Research,2022,2913805-13821.
手机版