Mr. Ji Mei | Environmental Science | Best Researcher Award
Ji Mei at School of Environmental Science and Engineering, Sun Yat-sen University, China.
Mr. Ji Mei holds an M.Sc. in Environmental Engineering from Zhejiang Normal University, where he focused on air pollutant degradation through adsorption and catalysis. With strong analytical skills and extensive experience in experimental research, he has authored multiple high-impact journal articles. His expertise spans catalyst synthesis, environmental monitoring, and instrumental analysis. Dedicated to solving environmental challenges, he is highly motivated, proactive, and continuously seeks innovative approaches in pollution control technologies.
Publication Profile
Educational Details
- M.Sc. in Environmental Engineering, Zhejiang Normal University (2019 – 2022)
- Research Focus: Adsorption and catalytic degradation of air pollutants (VOCs, NOx).
- B.Sc. in Environmental Engineering, Nanjing Tech University (2015 – 2019)
- Coursework: Physical Chemistry, Fluid Mechanics, Principles of Environmental Engineering, Water Pollution Control, Air Pollution Control, Environmental Monitoring, Instrumental Analysis.
Professional Experience
- Research Assistant, Zhejiang Normal University (2022 – 2023)
- Designed and conducted experiments on VOCs and NOx catalytic oxidation.
- Independently built experimental platforms and improved methodologies.
- Operated and maintained analytical instruments, including gas chromatography (FID, TCD) and catalyst characterization tools (XRD, BET, SEM, H2-TPR, in situ DRIFTS).
- Intern, Zhejiang Provincial Academy of Environmental Science (2020 – 2021)
- Assisted in environmental research projects and data analysis.
- Intern, Nanjing Chengbei Wastewater Treatment Plant (2018)
- Gained hands-on experience in wastewater treatment and environmental monitoring.
Research Interest
Mr. Ji Mei specializes in advanced adsorption and catalytic oxidation processes for air pollution control, focusing on Volatile Organic Compounds (VOCs) and nitrogen oxides (NOx). His work involves the synthesis and characterization of novel catalysts, including MOF-derived materials and metal oxides, to enhance efficiency in low-temperature catalytic reactions.
Top Noted Publication
Constructing Isolated Hydrophilic and Ozonophilic Sites Over TpBpy-COF Catalyst Enhances Ozone Decomposition Under Ambient Humidity
Authors: S. Zuo, Shulin; R. Zhang, Rumeng; J. Huang, Jiahao; J. Mei, Ji; D. Xia, Dehua
Journal: Applied Catalysis B: Environmental
Publication Year: 2025
Summary:
The study investigates the development of a TpBpy-COF-based catalyst with engineered hydrophilic and ozonophilic sites to improve ozone decomposition efficiency under humid conditions. The research highlights material synthesis, characterization, and catalytic performance, offering insights into enhanced air purification strategies.
Conclusion