Dr. Fang Mi, Xinjiang normal university, China
Dr. Fang Mi is a Lecturer at the School of Chemistry and Chemical Engineering, Xinjiang Normal University. She specializes in biosensing technologies, particularly Surface-Enhanced Raman Scattering (SERS) using nano hotspots and magnetic materials for pathogen detection. With a commitment to scientific innovation, she has spearheaded several funded research projects and holds national patents. Her groundbreaking contributions have led to high-impact publications in renowned international journals.
👤 Profile
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🎓 Education
Dr. Mi received comprehensive training in both microbiology and analytical chemistry, forming a strong interdisciplinary foundation for her research in biosensors. Her academic journey has empowered her to explore cutting-edge diagnostic tools for environmental and biological analysis.
💼 Experience
As a full-time lecturer at Xinjiang Normal University, Dr. Mi has been actively involved in teaching and mentoring students while managing rigorous research projects. She has also played a leading role in youth scientific innovation and regional R&D programs, contributing to the academic development of Western China.
🔬 Research Interests
Dr. Mi’s research focuses on SERS biosensors, with special attention to embedded probes and sandwich-structured detection systems. She investigates dual-mode colorimetric/SERS techniques and MOF-based substrates to enhance detection of pathogens and antibiotic residues, significantly benefiting food safety and public health monitoring.
🏅 Awards
Dr. Mi is a nominee for the Best Researcher Award in recognition of her outstanding work on SERS-based biosensor development. Her innovative contributions have already earned her multiple research grants and a national invention patent.
📚 Publication Top Notes
Synergistic effect of boric acid affinity magnetic materials and multi-hotspot SERS substrates for high sensitivity detection of glucose
Multifunctional nanozymatic biosensors: Awareness, regulation and pathogenic bacteria detection
A SERS biosensor based on aptamer-based Fe3O4@SiO2@Ag magnetic recognition and embedded SERS probes for ultrasensitive simultaneous detection of Staphylococcus aureus and Escherichia coli
Integration of three non-interfering SERS probes combined with ConA-functionalized magnetic nanoparticles for extraction and detection of multiple foodborne pathogens
Application progress of magnetic molecularly imprinted polymers chemical sensors in the detection of biomarkers