National Natural Science Foundation of China, China
👨🎓Profiles
🎓 Early Academic Pursuits
Prof. Jing Chen began his academic journey with a strong commitment to scientific excellence in the fields of life and environmental analysis. From the outset, he displayed a deep interest in applying multidisciplinary theories and methodologies to address real-world analytical challenges. This early foundation equipped him to transition seamlessly from theoretical concepts to practical applications, setting the stage for a stable and impactful research trajectory.
👨🔬 Professional Endeavors
Prof. Chen currently holds a distinguished position at the National Natural Science Foundation of China, where he leads pioneering research at both national and provincial levels. Over the years, he has directed numerous high-impact projects, including those funded by the Gansu Provincial Science Foundation. His professional efforts have focused not only on scientific innovation but also on cultivating research that supports regional development goals, particularly in environmental sustainability.
🔬 Research Focus and Innovations
Prof. Chen’s core research areas encompass electrochemistry, electroanalytical chemistry, and computational chemistry. His most innovative contributions involve the development of electrochemical sensors and biosensors, using advanced materials such as MXenes and bioactive porphyrins. These innovations have enabled the highly selective and efficient detection of life-active molecules and environmental pollutants, providing robust tools for water quality assessment and ecological monitoring.
💡 Key Contributions
Prof. Chen has made transformative contributions to the detection and monitoring of pollutants by integrating smart material science with sensor design. His work offers practical solutions for ecological conservation, public health, and environmental policymaking. His major funded research projects include: National Natural Science Foundation of China (22374121) – ongoing; Key Project of Natural Science Foundation of Gansu Province (22JR5RA132); Key R&D Project, Gansu Province (18YF1GA050); and NSFC Project on Bioelectrochemical Detection Methods (21565022). These projects underscore his leadership in national priority areas such as environmental protection, bioanalysis, and advanced sensor technology.
🌍 Impact and Influence
Prof. Chen’s work has had a direct and lasting impact on ecological research, public safety, and green chemistry initiatives. His sensor technologies have been adapted for regional water quality monitoring, aligning with broader environmental goals of the province. His efforts contribute to ecological civilization construction and the economic development of Western China, reinforcing the societal relevance of scientific research.
📚 Academic Citations and Recognition
His scientific outputs have earned recognition in top-tier journals, with frequent citations reflecting the relevance and utility of his research. His MXene-based and porphyrin-functionalized platforms have become reference points in the study of next-generation biosensors, bioanalytical chemistry, and nanomaterial applications.
🧪 Technical Skills and Expertise
Prof. Chen possesses advanced technical proficiency in electrochemical analysis, sensor development, nanomaterial synthesis, and computational modeling. His skill in bridging theoretical design with laboratory experimentation allows for rapid innovation in sensor technology, with enhanced accuracy and environmental relevance.
👨🏫 Teaching and Mentorship
As an educator, Prof. Chen has demonstrated a consistent passion for mentoring emerging scientists, providing guidance in both theoretical understanding and experimental technique. His teaching philosophy emphasizes interdisciplinary research, encouraging students to address real-world problems through innovation and collaboration.
🌟 Legacy and Future Contributions
Looking forward, Prof. Jing Chen aims to further advance the field of environmental sensing and analytical chemistry by developing next-gen biosensors powered by smart materials and AI-assisted analytical platforms. His long-term vision includes not only scientific breakthroughs but also the training of future leaders in chemistry and environmental sciences. His legacy will be defined by innovative research, institutional leadership, and a sustained commitment to solving global environmental challenges.
📖Notable Publications
Electrochemiluminescence sensor based on upconversion nanoparticles and Zr-based porphyrinic metal-organic frameworks with recognition sites for mercaptan detection
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Journal: Talanta
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Year: 2025
Ratiometric Electrochemical DNAzyme Biosensor for Sensitive Detection of Salmonella in Urban Water Source
Ratio Fluorescence Detection of Salicylic Acid Based on Ti₃C₂ Quantum Dots
Rapid detection and differentiation of chlortetracycline and tetracycline by N,P-Ti₃C₂ QDs
L-Lysine-Functionalized Nickel-Zinc Bis(Dithiolene) Metal-Organic Framework for Electrochemical Chiral Recognition of Tryptophan Enantiomers
CoFe₂O₄ nanocubes derived by Prussian Blue analogs for detecting dopamine
Multiwalled carbon nanotubes modified with nickel-zinc bis(dithiolene) metal-organic frameworks for electrochemical detection of 5-hydroxytryptamine
Photoanode with enhanced performance achieved by a novel charge modulation strategy without sacrificial agents