Dr. Ruijuan Qu | Environmental Chemistry Award | Best Researcher Award

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Dr. Ruijuan Qu | Environmental Chemistry Award | Best Researcher Award

Dr. Ruijuan Qu , Nanjing University , China

Ruijuan Qu is an Associate Professor at Nanjing University, China, specializing in environmental chemistry and the transformation of organic pollutants. With a strong academic background and extensive research experience, she focuses on the development of quantitative structure-activity relationship (QSAR) models to analyze organic pollutants and improve green degradation methods. Since receiving her Ph.D. from Nanjing University in 2015, she has advanced through various research positions, including assistant researcher and associate researcher, before her current role. She collaborates with international researchers to innovate in environmental technology, notably with Professor Virender K. Sharma at Texas A&M University. Recognized globally, she was listed among Stanford University’s World’s Top 2% Scientists in 2023, emphasizing her significant impact in environmental research.

Professional Profile:

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Summary of Suitability for Award:

Dr. Ruijuan Qu is an exemplary candidate for the Best Researcher Award due to her extensive contributions to environmental science, her innovative research methodologies, and her global recognition. Her work addresses crucial environmental challenges, with real-world applications in water treatment and pollutant degradation. The combination of high-impact publications, patents, collaborations with top global scientists, and her leadership in editorial roles makes her highly deserving of this prestigious recognition. Her commitment to advancing both scientific knowledge and practical environmental solutions places her at the forefront of research in her field.

🎓Education:

Ruijuan Qu completed her undergraduate and postgraduate studies at Nanjing University. After earning her Bachelor’s degree in Environmental Chemistry, she pursued a Ph.D. in Environmental Science, which she completed in 2015. Her doctoral research laid the foundation for her expertise in the environmental transformation of organic pollutants, focusing on quantitative structure-activity relationship (QSAR) analysis. With a commitment to understanding pollutants at a molecular level, she integrated principles of computational chemistry with experimental analysis to map the pathways pollutants take in natural and engineered environments. This innovative approach helped her build a strong knowledge base that informs her teaching and research today. Her education was marked by rigorous training in advanced analytical techniques, preparing her to lead complex projects in environmental science and to contribute valuable insights in her role as an academic and researcher.

🏢Work Experience:

Dr. Ruijuan Qu began her career as an Assistant Researcher at Nanjing University, progressing to Associate Researcher from 2018 to 2019, before being appointed Associate Professor in 2019. She has led several high-impact research projects, primarily focused on the fate of organic pollutants in the environment. Dr. Qu’s work on chemical oxidation processes has uncovered key insights into the catalytic roles of metals in pollution treatment, significantly advancing the field of environmental science. She has also collaborated with global experts, notably Prof. Virender K. Sharma at Texas A&M University, on ferrate oxidation studies, resulting in transformative findings on pollutant degradation mechanisms. Alongside her research, Dr. Qu serves as a managing editor and editorial board member for reputed journals, contributing to the advancement of environmental science literature. Her experience demonstrates her expertise in both independent and collaborative research environments.

🏅Awards:

Ruijuan Qu has earned several prestigious accolades for her research. In 2023, she was named to Stanford University’s esteemed World’s Top 2% Scientists List, recognizing her significant influence and high citation impact in environmental science. Her innovative contributions in environmental chemistry have not only advanced pollution treatment but have also fostered new methodologies in quantitative structure-activity relationship (QSAR) analysis. Dr. Qu’s pioneering work has also been acknowledged through editorial appointments at high-impact journals, such as Reviews of Environmental Contamination and Toxicology and Toxics, where she serves as a managing editor and guest editor. Her reputation in the field is further established by her role as a key collaborator in international research projects, particularly with Texas A&M University. These awards and honors underscore her commitment to impactful, high-quality research and her ongoing contribution to solving complex environmental challenges.

🔬Research Focus:

Dr. Ruijuan Qu’s research focuses on the environmental transformation of organic pollutants, particularly through chemical oxidation processes. Her work employs quantitative structure-activity relationship (QSAR) modeling to analyze pollutant degradation pathways. A major aspect of her research is the catalytic role of various substances, such as bismuth hydroxide, in ferrate oxidation treatment, an innovative approach for water and wastewater purification. Dr. Qu has developed a comprehensive method for pollutant analysis that combines non-target mass spectrometry, preparative separation, and simplified transition state calculations. Her research on the polymerization of phenols during oxidation has revealed critical insights into promoting low-carbon oxidation treatments. Additionally, her studies in silica modification have expanded catalytic activity into the infrared spectrum, enabling more efficient degradation of persistent organic pollutants. This multidisciplinary focus positions Dr. Qu at the forefront of environmental science, advancing sustainable technologies for pollutant management.

Publication Top Notes:

  •  Photodegradation of polychlorinated biphenyls (PCBs) on suspended particles from the Yellow River under sunlight irradiation: QSAR model and mechanism analysis
  •  Effect of Dissolved Organic Matter on the Photodegradation of Decachlorobiphenyl (PCB-209) in Heterogeneous Systems: Experimental Analysis and Excited-State Theory Calculation
  •  Photocatalytic degradation of decabromodiphenyl ethane (DBDPE) by wide solar spectrum-responsive nitrogen doped silica
  • Effect of small-molecule phenolic compounds on the removal of triclosan (TCS) by heat/persulfate process Formation of cross-coupling products and implications for wastewater treatment
  •  Enhanced permanganate oxidation of phenolic pollutants by alumina and potential industrial application