Prof. Dr. Zihao Wu | Chemistry | Best Researcher Award

Prof. Dr. Zihao Wu | Chemistry | Best Researcher Award

Advanced Institute of Natural Sciences, China

Dr. Zihao Wu is an accomplished environmental scientist and Associate Professor at the College for Water Science, Advanced Institute of Natural Sciences, Beijing Normal University 🌊🎓. With a strong academic background and dedication to research in water chemistry and advanced oxidation technologies, Dr. Wu has become a leading voice in the control of emerging contaminants and environmental safety. His contributions to academia and research are widely recognized through prestigious awards and impactful publications.

Publication Profile

🎓 Education Background

Dr. Wu earned his Ph.D. in Environmental Engineering from Sun Yat-Sen University in 2018 under the mentorship of Prof. Jingyun Fang and Prof. Fangang Meng 🎓🔬. He completed his undergraduate studies with a B.S. in Environmental Science from the same university in 2013, guided by Prof. Rongliang Qiu. His educational journey laid a robust foundation for his future research on water treatment and chemical processes.

👨‍🔬 Professional Experience

From August 2018 to August 2021, Dr. Wu served as a Postdoctoral Research Associate in the Department of Environmental Science at Sun Yat-Sen University 🧪. He later joined Beijing Normal University as an Associate Research Fellow (2021–2023) and rose to his current role as Associate Professor and Doctoral Supervisor in July 2023. His progressive academic roles reflect his growing influence and leadership in the field of water science.

🏅 Awards and Honors

Dr. Wu’s scientific excellence has been recognized through numerous honors, including the Best Poster Award at the 14th National Conference on Water Treatment Chemistry (2018) 🏆, National Doctoral Scholarship (2017), Environmental Protection Scholarship (2016), Excellent League Member Award (2016), and the Excellent Paper Award (Second Prize) from the Chinese Society of Environmental Sciences (2015) 📜✨.

🔬 Research Focus

Dr. Wu’s primary research interests lie in water chemistry, UV-based advanced oxidation technologies, the control of emerging contaminants, and quantum chemical calculations ⚗️💧. His work particularly explores the mechanisms behind disinfection byproducts and the transformation pathways of micropollutants, contributing significantly to safer and more effective water treatment practices.

🧾 Conclusion

With a deep-rooted commitment to environmental protection and scientific innovation, Dr. Zihao Wu continues to push the boundaries of research in environmental science 🌍💡. His dedication to high-impact studies and mentoring young researchers highlights his role as a transformative figure in water treatment and chemical engineering.

📚 Top Publications 

Visible light can also efficiently activate chlorine dioxide for the abatement of micropollutants
Chemical Engineering Journal, 2025

Comparative analysis of Fe(IV)-based advanced oxidation processes in generating disinfection byproducts
Chemical Engineering Journal, 2025

Comparison of photolysis rates and radical concentrations in UV290/free chlorine vs. UV290/dichloramine
Separation and Purification Technology, 2025

Detecting disinfection byproducts and understanding formation mechanisms via isotopic analysis
TrAC Trends in Analytical Chemistry, 2024

Reactive nitrogen species in UV/monochloramine process for micropollutant transformation
Environmental Science & Technology, 2019 (Cited by: 137)

Trimethoprim degradation in UV/chlorine process: Kinetics & pathways
Water Research, 2016 (Cited by: 249, ESI Highly Cited Paper)

Roles of reactive species in micropollutant degradation in UV/chlorine process
Water Research, 2017 (Cited by: 230, ESI Highly Cited Paper)

Krzysztof Wislocki | Engineering | Best Researcher Award

Prof Dr. Krzysztof Wislocki | Engineering | Best Researcher Award

Professor, Poznan University of Technology, Poland

👨‍🏫 Krzysztof Wisłocki, born in 1955, is a distinguished professor at Poznan University of Technology, specializing in combustion engines and thermal processes. With over four decades of academic and research experience, he has made significant contributions to engineering, both as a scholar and mentor. Prof. Wisłocki holds leadership positions in national and international research institutions and remains deeply involved in both education and scientific innovation.

Publication Profile

ORCID

Education

🎓 Prof. Wisłocki earned his Master of Engineering degree in 1979 from Poznan University of Technology. He obtained his Doctor of Engineering in 1987, followed by a Doctor of Science title in 2005. In 2014, he was awarded the prestigious title of full professor.

Experience

💼 Prof. Wisłocki is currently employed at the Institute of Powertrains and Aviation, Faculty of Civil and Transport Engineering, Poznan University of Technology. He previously held positions at various international institutions, including RWTH Aachen and FEV-Institute. His extensive teaching career spans decades, having lectured in both German and English on subjects such as supercharging, combustion, and scientific methodology.

Research Focus

🔬 His research expertise covers a wide range of topics related to thermal processes in combustion engines, turbocharging, direct injection in CI engines, and optical studies of combustion. He is also passionate about the history of thermal machines and engines.

Awards and Honors

🏅 Prof. Wisłocki has received numerous accolades, including the Medal of the Commission of National Education and the Gold Cross of Merit from the Republic of Poland. He is a prominent member of the Polish Scientific Society of Combustion Engines and currently serves as president of the Council of the National Museum of Agriculture and Food Industry.

Publications (Top Notes)

Analysis of Energy Transfer in the Ignition System for High-Speed Combustion Engines

Optimization of Two-Stage Combustion System Fueled by Lean-Burn Compressed Natural Gas Mixtures for Light-Duty Vehicle Engines

Experimental Study on Ignitability of Lean CNG/Air Mixture in the Multi-Stage Cascade Engine Combustion System

Optimization of Two-Stage Combustion System Fueled by Lean-Burn Compressed Natural Gas Mixtures for Light-Duty Vehicle Engines