Dr. Ruijuan Qu | Environmental Chemistry | Best Researcher Award
Nanjing University, China
๐จโ๐Profiles
๐ฉโ๐ซ Early Academic Pursuits
Ruijuan Qu completed her PhD from Nanjing University, where she subsequently embarked on her professional career. She started her academic journey as an assistant researcher and progressed to associate researcher. Her continued academic growth led to her appointment as an Associate Professor at the School of Environment, Nanjing University. Her foundational academic pursuits focused on environmental sciences, particularly on the transformation mechanisms of organic pollutants and the development of efficient degradation technologies.
๐ผ Professional Endeavors
Her professional career has been largely centered around environmental chemistry, with a particular focus on pollution degradation and chemical processes in environmental systems. Her research spans various aspects of environmental transformation, including the fate of organic pollutants, chemical oxidation processes, and the application of computational chemistry. She has made significant contributions to the understanding of complex environmental processes, particularly in the treatment of organic pollutants using advanced oxidation processes. She collaborates internationally, notably with Prof. Virender K. Sharma from Texas A&M University, on Ferrate oxidation treatments of organic pollutants.
๐ฌ Contributions and Research Focus
She has been instrumental in developing innovative methods and models to study the transformation of organic pollutants. She established a novel "non-target mass spectrometry โ preparative separation-characterization - simplified transition state calculation" method for identifying intermediate products in pollutant degradation. Furthermore, she investigated the influence of suspended particles and co-existing components on the heterogeneous photodegradation of persistent organic pollutants in river systems. Her work has led to a deeper understanding of the polymerization processes in chemical oxidation of phenols, and she proposed strategies to regulate this process for low-carbon, efficient oxidation treatments.
๐ Impact and Influence
Her research has had significant impact in the field of environmental chemistry, particularly in understanding the environmental fate and transformation of organic pollutants. Her innovative methods have been applied to address key challenges in environmental pollution, particularly in water and wastewater treatment. As a recognized leader in the field, Her work has contributed to advancing green chemistry and pollution control technologies. She was named to Stanford University's 2023 World's Top 2% Scientists List, highlighting her significant contributions and the wide recognition her research has gained in the global scientific community.
๐ Academic Cites
Her work has been cited extensively, with a citation index of 6036 times and an H-index of 43 according to Web of Science. This reflects the widespread influence and relevance of her research in the environmental chemistry domain. Her 159 articles published in SCI-indexed journals underscore her prolific contributions to the academic community, advancing the understanding of chemical processes and pollutant management.
๐ ๏ธ Technical Skills
Ruijuan Qu possesses advanced technical expertise in environmental chemistry, particularly in the areas of mass spectrometry, computational chemistry, and environmental analytical techniques. Her work in environmental transformation analysis, pollutant degradation technologies, and process optimization highlights her technical proficiency. She also possesses deep knowledge of chemical oxidation processes and their applications in environmental remediation, making her a leader in this niche field of research.
๐ฉโ๐ซ Teaching Experience
As an Associate Professor at Nanjing University, She has contributed significantly to educating the next generation of environmental scientists. She teaches courses in environmental chemistry, pollutant treatment technologies, and environmental computational chemistry. Her teaching approach integrates cutting-edge research with practical applications, ensuring that her students are equipped with the knowledge and skills necessary to address current and future environmental challenges.
๐ Legacy and Future Contributions
Her legacy is grounded in her pioneering work in environmental chemistry and pollution degradation. Through her innovative research, she has not only advanced scientific understanding but has also contributed to the development of green technologies for environmental protection. Her future contributions are poised to further shape the field, particularly in the development of more efficient, sustainable pollution control methods and the application of computational chemistry in environmental research.
๐ฎ Future Contributions
She continues to push the boundaries of environmental science with ongoing research focused on improving chemical oxidation methods, advancing non-target mass spectrometry for pollutant detection, and developing low-carbon technologies for water and wastewater treatment. Her future work aims to bridge the gap between fundamental environmental chemistry and practical, scalable solutions to global pollution challenges, enhancing both environmental sustainability and human health.
๐Notable Publications
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Degradation of 2-(2H-benzotriazol-2-yl)-4,6-di-tert-pentylphenol (UV328) in soil by FeS activated persulfate: Kinetics, mechanism, and theoretical calculations
- Authors: Li, X., Bu, Y., Xu, J., Wang, Z., Qu, R.
- Journal: Environmental Pollution
- Year: 2024
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Photodegradation of polychlorinated biphenyls (PCBs) on suspended particles from the Yellow River under sunlight irradiation: QSAR model and mechanism analysis
- Authors: Xu, J., Wei, J., Wei, X., Wang, Z., Qu, R.
- Journal: Water Research
- Year: 2024
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Adsorption and migration behaviors of heavy metals (As, Cd, and Cr) in single and binary systems in typical Chinese soils
- Authors: Cao, W., Qin, C., Zhang, Y., Xian, Q., Wang, Z.
- Journal: Science of the Total Environment
- Year: 2024
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Efficient degradation of benzalkonium chloride (BAC) by zero-valent iron activated persulfate: Kinetics, reaction mechanisms, theoretical calculations and toxicity evolution
- Authors: Qi, Y., Cao, W., Zhang, Y., Huo, Z., Zhu, F.
- Journal: Environmental Pollution
- Year: 2024
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Promoted electrochemical degradation of triclosan with persulfate on Fe-Ni oxide modified graphite felt cathode
- Authors: Teng, X., Wang, Z., Abukhadra, M.R., Khaled Mahmoud, R., Qu, R.
- Journal: Separation and Purification Technology
- Year: 2024
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Efficient photocatalytic degradation of 24 imidazolium ionic liquids in an N-ZnO/simulated sunlight irradiation system and its mechanism
- Authors: Liu, J., Zhang, J., Jia, M., Qiao, Y., Wu, J.
- Journal: Chemical Engineering Journal
- Year: 2024