postdoctoral researcher at University of Tabriz, Iran
Hassan Nasiri Mardanqom is a dedicated researcher in electrical engineering, specializing in biophotonics, plasmonic sensing, and nanocomposites. His academic journey has been marked by excellence, with notable achievements in optical communication systems and biomedical engineering. Through his work, he has contributed significantly to the development of highly sensitive sensors and novel materials for biosensing applications. With extensive research experience, publications in high-impact journals, and expertise in laboratory analysis techniques, Hassan has established himself as a proficient scientist in his field.
Profile
Scholar
Education
Hassan’s academic credentials reflect his commitment to advancing knowledge in electrical and biomedical engineering. He obtained his Ph.D. in Electrical Engineering (Electronics) from the University of Tabriz in 2022, achieving an impressive GPA of 18.6/20. His master’s degree, earned from Sahand University of Technology in 2015, focused on optical communication systems. Additionally, he has pursued postdoctoral research in biophotonic engineering at the University of Tabriz, further deepening his expertise in the field. Notably, he is also pursuing a second bachelor’s degree in Biomedical Engineering, which aligns with his interdisciplinary research interests.
Experience
Hassan has gained extensive experience in both academic and industrial settings. He has worked with advanced laboratory techniques such as cyclic voltammetry, surface plasmon resonance, and flow cytometry, which have been instrumental in his research on biosensors. He has also served as a lecturer at multiple institutions, teaching subjects like Linear Integrated Circuit Design, Communication Systems, and Electromagnetics. Furthermore, he has held the position of Communication Network Expert at Telecommunication Infrastructure Co., where he contributed to network optimization and system analysis.
Research Interests
Hassan’s research revolves around plasmonics, nanocomposites, biosensing, and signal optimization. His primary focus is on the development of high-sensitivity sensors using graphene-based materials and chitosan composites for medical and industrial applications. He has also explored photonics and optoelectronics, contributing to advancements in optical communication and biomedical imaging. His interdisciplinary expertise allows him to bridge electrical engineering with biomedical sciences, leading to innovative research outcomes.
Awards & Honors
Hassan’s academic excellence has been recognized through multiple awards. He ranked first in his Biomedical Engineering undergraduate class and achieved top rankings in both his master’s and doctoral studies. His consistent academic performance and research contributions have established him as a distinguished scholar in his field.
Selected Publications
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 (Q1).
Nasiri, H., Abbasian, K. (2024). Sensing of lactose by Graphitic carbon nitride/magnetic chitosan composites with surface plasmon resonance method. Food Bioscience (Q1).
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 (Q1).
Gahremani, R., Salahandish, M., Nasiri, H., & Purziad, A. (2024). Enhanced plasmonic absorption using MIM ring resonator structures for optical detector applications. Physica Scripta (Q2).
Nasiri, H., Abbasian, K. (2024). Sensitive surface plasmon resonance biosensor by optimized carboxylate functionalized carbon nanotubes/chitosan for Amlodipine detecting. Talanta (Q1).
Nasiri, H., Baghban, H., Teimuri-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 (Q2).
Nasiri, H., Najafi Aghdam, E., & Baheri Fard, M. A. (2017). Application of variable inductors in a DC/DC converter to increase the operating range of the power tracker at low solar levels. The IJES.
Conclusion
Hassan Nasiri Mardanqom is a highly accomplished researcher with a strong background in electrical engineering and biomedical sciences. His work in plasmonic biosensors and nanocomposites has contributed significantly to the advancement of high-sensitivity sensing technologies. Through his dedication to research, teaching, and industry applications, he continues to make a lasting impact in his field. His expertise in advanced materials and sensing technologies positions him as a leading figure in biophotonics and biomedical engineering.