Faculty

He has over 16 years of teaching and research experience (since 2009) in the domains of VLSI design, Verilog HDL, SPICE modeling, circuit design, Photonic Crystal Fiber (PCF) sensors, and surface plasmon resonance (SPR) sensors. He has an excellent publication record in high-impact journals such as the IEEE Sensors Journal, IEEE Transactions, and the Microchemical Journal. He has published more than 70 research papers in reputed journals and international conferences and has authored five book chapters with Springer and Wiley. He has participated in more than 10 workshops and Faculty Development Programs (FDPs) and has served as an invited speaker and session chair at various international platforms. He is also an active reviewer for several high-impact journals, including Microchemical Journal, IEEE Sensors, IEEE Plasmonics, and Diagnostics Microbiology & Infectious Disease. His current research focuses on PCF- and SPR-based biosensors for the detection of disease biomarkers and pathogens. With a strong background in biosensing technologies, he works on real-time, label-free SPR sensing, emphasizing early diagnosis and high-accuracy detection. His research involves the design and optimization of advanced SPR sensor architectures using novel materials and functionalization techniques to enhance sensitivity, specificity, and robustness. Through interdisciplinary collaboration and continuous innovation, he contributes to the development of next-generation diagnostic tools aimed at improving early disease detection, reducing healthcare costs, and saving lives.