Postdoctoral Researcher | University of Tabriz | Iran
Assist. Prof. Dr. Hassan Nasiri Mardanqom is a distinguished researcher whose academic and professional endeavors are deeply rooted in the field of plasmonics, biophotonics, and nanoengineering. His extensive work as a postdoctoral researcher at the University of Tabriz in both Biochemistry and Electrical Engineering has positioned him at the forefront of plasmonics-based sensor technology. With advanced expertise in plasmonics, quantum technology, and nanocomposites, his research primarily revolves around the design and fabrication of plasmonics-enhanced optical and biosensing systems. Through innovative applications of plasmonics in biophotonic platforms, he has developed several highly sensitive surface plasmon resonance (SPR) sensors for detecting substances such as melamine, nitrite, and Amlodipine. His mastery in simulation software like COMSOL and Lumerical allows him to optimize plasmonics structures and their optical interactions at the nanoscale. Recognized for his achievements with top academic rankings and awards, Assist. Prof. Dr. Nasiri has authored numerous high-impact plasmonics publications in Q1 and Q2 journals. His laboratory experience encompasses advanced instrumentation, including cyclic voltammetry, flow cytometry, and plasmonics instruments such as Bionavis 210. Beyond technical proficiency, his contributions to teaching and mentoring reflect a deep commitment to advancing plasmonics and biophotonic research. Overall, his scientific vision emphasizes the integration of plasmonics in biomedical sensing and optical communication, highlighting his role as a pioneering force in next-generation plasmonics-driven nanotechnology.
Profile: Google Scholar
Featured Publications
1. Nasiri, H., Baghban, H., Teymouri-Mofrad, R., & Mokhtarzadeh, A. (2023). Graphitic carbon nitride/magnetic chitosan composite for rapid electrochemical detection of lactose. International Dairy Journal, 136, 105489.
2. Nasiri, H., & Abbasian, K. (2024). High-sensitive surface plasmon resonance sensor for melamine detection in dairy products based on graphene oxide/chitosan nanocomposite. Food Control, 166, 110761.
3. Nasiri, H., Abbasian, K., Salahandish, M., & Elyasi, S. N. (2024). Sensitive surface plasmon resonance biosensor by optimized carboxylate functionalized carbon nanotubes/chitosan for amlodipine detecting. Talanta, 276, 126249.
4. Nasiri, H., Abbasian, K., & Baghban, H. (2024). Highly sensitive quantification of amlodipine in real samples using graphene oxide-chitosan surface plasmon resonance sensor. Sensors and Actuators A: Physical, 368, 115152.
5. Nasiri, H., Baghban, H., Teymouri-Mofrad, R., & Mokhtarzadeh, A. (2023). Chitosan/polyaniline/graphene oxide-ferrocene thin film and highly-sensitive surface plasmon sensor for glucose detection. Optical and Quantum Electronics, 55(11), 948.