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

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

Doctorate at Nanjing University | China

Dr. Ruijuan Qu, an Associate Professor at the School of Environment, Nanjing University, has emerged as a leader in environmental analytical chemistry. Her pioneering research on the environmental transformation of organic pollutants and the development of green degradation technologies has earned her recognition as one of the world’s top scientists. With a strong academic background and a robust publication record, Dr. Qu’s innovative contributions have had a significant impact on both environmental chemistry and sustainability.

Professional Profiles

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🎓Academic and Professional Background 

Ruijuan Qu serves as an Associate Professor at the School of Environment at Nanjing University, China. She earned her PhD in 2015 from the same institution and subsequently held positions as an assistant researcher (2015-2018) and associate researcher (2018-2019) before becoming an Associate Professor in December 2019. Her expertise centers on quantitative structure-activity relationship (QSAR) studies, with a focus on the transformation mechanisms of organic pollutants and the development of green, efficient degradation technologies. Her remarkable impact in environmental science earned her a place on Stanford University’s 2023 World’s Top 2% Scientists List.

🔍 Research Focus

Dr. Qu specializes in quantitative structure-activity relationship (QSAR) for studying the transformation mechanisms of organic pollutants. Her research is dedicated to the environmental transformation of pollutants and the development of green, efficient degradation technologies.

🧪 Key Research Areas

  • Environmental Transformation and Fate of Organic Pollutants
    Dr. Qu investigates how organic pollutants change and decompose in environmental contexts.
  • Chemical Oxidation Processes in Water and Wastewater Treatment
    She develops innovative oxidation technologies for cleaner water treatment.
  • Environmental Computational Chemistry
    Using computational tools, she models pollutant behavior to inform safer, effective treatments.

🌐 Collaborative Research and Breakthroughs

In collaboration with Prof. Virender K. Sharma of Texas A&M University, Dr. Qu explored the Ferrate (Fe(VI)) oxidation treatment of organic pollutants. Their work uncovered the dihydroxylation mechanism of phenols and highlighted the catalytic role of bismuth hydroxide through a Bi(III)-Bi(V) valence cycle.

🚀 Pioneering Innovations in Environmental Chemistry

Dr. Qu has introduced a novel method for pollutant transformation analysis: non-target mass spectrometry – preparative separation-characterization – simplified transition state calculation. This innovative approach enhances intermediate product identification. Key achievements include:

Addressing particle effects on photodegradation of persistent organic pollutants (POPs) in river systems.

Revealing polymerization occurrences in chemical oxidation of phenols and proposing strategies for low-carbon deep oxidation.

Modifying silica materials for enhanced catalytic activity under visible and infrared light, advancing adsorption-photocatalytic degradation of halogenated aromatic hydrocarbons.

Publications Top Noted📝

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

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

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

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

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

Prof Dr. stella Girousi, Analytical Chemistry, Women Researcher Award

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Prof Dr. stella Girousi, Analytical Chemistry, Women Researcher Award

Prof Dr. stella Girousi, AUTh, Greece

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🌟Summary

Dr. Stella Girousi is a renowned researcher in the field of analytical chemistry, specializing in the development and application of electroanalytical methods. Her work focuses on voltammetric determination of metals, electrochemical biosensors, and the study of biologically and environmentally significant compounds. With numerous publications and book chapters, she contributes significantly to advancements in bioanalytical tools and nanomaterial-based electrode surfaces.

🎓Education 

B.Sc. in Chemistry – Aristotle University of Thessaloniki, Greece

M.Sc. in Analytical Chemistry – Aristotle University of Thessaloniki, Greece

Ph.D. in Analytical Chemistry – Aristotle University of Thessaloniki, Greece

👩‍🔬Professional Experience 

Professor – Analytical Chemistry Laboratory, Chemistry Department, Aristotle University of Thessaloniki, Greece

Researcher – Specializing in electrochemical biosensors, voltammetric methods, and nanomaterials

🔬Research Interests 

Electroanalytical Methods: Developing voltammetric techniques using mercury, carbon, and mercury/bismuth thin film electrodes

Electrochemical Biosensors: Creating DNA biosensors for studying drug-DNA interactions, detecting micromolar compounds, and epigenetic control

Nanomaterials: Innovating electrode surfaces with nanomaterials and screen printing technology

Bioanalytical Applications: Applying electroanalytical methods to biological, environmental, and food samples, as well as pharmacologically active compounds

Publications📚

Bismuth Film along with dsDNA-Modified Electrode Surfaces as Promising (bio)Sensors in the Analysis of Heavy Metals in Soils

Authors: Keramari, V.; Papadimou, S.G.; Golia, E.E.; Girousi, S.

Journal: Biosensors

Year: 2024

Preparation of a Glassy Carbon Electrode Modified with Saffron Conjugated Silver Nanoparticles for the Sensitive and Selective Electroanalytical Determination of Amoxicillin in Urine Samples

Authors: Sarakatsanou, C.; Karastogianni, S.; Girousi, S.

Journal: Analytical Methods

Year: 2023

New Prospects in the Electroanalysis of Heavy Metal Ions (Cd, Pb, Zn, Cu): Development and Application of Novel Electrode Surfaces

Authors: Keramari, V.; Karastogianni, S.; Girousi, S.

Journal: Methods and Protocols

Year: 2023

Different Aspects of the Voltammetric Detection of Vitamins: A Review

Authors: Kiamiloglou, D.; Girousi, S.

Journal: Biosensors

Year: 2023

Promising Electrode Surfaces, Modified with Nanoparticles, in the Sensitive and Selective Electroanalytical Determination of Antibiotics: A Review

Authors: Sarakatsanou, C.; Karastogianni, S.; Girousi, S.

Journal: Applied Sciences (Switzerland)

Year: 2023

Applications of Sensitive Electrode Surfaces; Determination of Different Classes of Antibiotics

Authors: Girousi, S.; Sarakatsanou, C.

Journal: Nanosensors

Year: 2023