Xinhao Wang
Hebei Medical University(CN)Hunan University of Traditional Chinese Medicine(CN)Nantong University(CN)University of Macau(MO)Sichuan University(CN)Fudan University(CN)Inner Mongolia University(CN)Zhejiang Ocean University(CN)State Key Laboratory of Pollution Control and Resource Reuse(CN)Fourth Hospital of Hebei Medical University(CN)Vyne Therapeutics (United States)(US)Science and Technology on Surface Physics and Chemistry Laboratory(CN)MetaMateria (United States)(US)Innovation Team (China)(CN)State Key Laboratory of Clean Energy UtilizationState Key Laboratory of Hydraulics and Mountain River EngineeringState Key Laboratory of Surface PhysicsHunan Agricultural University(CN)Jiangxi Normal University(CN)Civil Aviation Flight University of China(CN)Zhejiang University(CN)Nanjing University(CN)
Publications by Year
Research Areas
Advanced oxidation water treatment, Advanced Photocatalysis Techniques, Catalytic Processes in Materials Science, Electrocatalysts for Energy Conversion, Environmental remediation with nanomaterials
Most-Cited Works
- → Coupled Surface-Confinement Effect and Pore Engineering in a Single-Fe-Atom Catalyst for Ultrafast Fenton-like Reaction with High-Valent Iron-Oxo Complex Oxidation(2023)220 cited
- → Microenvironment modulation of cobalt single-atom catalysts for boosting both radical oxidation and electron-transfer process in Fenton-like system(2023)177 cited
- → Facilely Tuning the First-Shell Coordination Microenvironment in Iron Single-Atom for Fenton-like Chemistry toward Highly Efficient Wastewater Purification(2023)170 cited
- → Switching the reaction mechanisms and pollutant degradation routes through active center size-dependent Fenton-like catalysis(2023)168 cited
- → Modulating Electronic Structure Engineering of Atomically Dispersed Cobalt Catalyst in Fenton-like Reaction for Efficient Degradation of Organic Pollutants(2023)162 cited
- → Selective oxidation of organic pollutants based on reactive oxygen species and the molecular structure: Degradation behavior and mechanism analysis