Published on 08/10/202508/10/2025 by AI Data Scientist 70 / 100 Powered by Rank Math SEO SEO Score Mr. Iftikhar ud Din | Applied Electromagnetics | Young Researcher Award Accomplished Researcher, University of Quebec at Trois-Rivieres, Canada Mr. Iftikhar ud Din is an accomplished researcher and academic specializing in Telecommunication Engineering, with expertise in antenna design, applied electromagnetics, microwave and millimeter-wave systems, and metamaterial-based biosensors. He is currently pursuing his Ph.D. at the University of Quebec at Trois-Rivières (UQTR), Canada, focusing on the design and prototyping of reconfigurable intelligent surface (RIS)-aided communication systems, a cutting-edge area driving advancements in 6G networks. He holds a Master’s in Telecommunication Engineering and a B.Sc. (Hons.) in Telecommunication Engineering from the University of Engineering and Technology (UET), Peshawar, Pakistan, where his theses focused on metasurface-based 5G antennas and ultra-wideband circular monopole antennas. Professionally, Mr. Iftikhar is associated with the Electromagnetic and Antenna Research Group (EMARG) at UET Mardan, contributing to the design and analysis of high-gain antennas for sub-6 GHz and millimeter-wave spectrums. His research interests include reconfigurable intelligent surfaces (RIS), metamaterial-based antenna systems, terahertz nano-biosensors, and electromagnetic sensing for biomedical and communication applications, integrating AI-based simulation and optimization approaches. His research skills encompass electromagnetic simulation, antenna miniaturization, high-frequency modeling, and metamaterial design for next-generation sensors and communication systems. With 26 Scopus-indexed publications and 351 citations by 253 documents (Scopus ID: 57222105830), his work has been featured in prestigious journals such as IEEE Sensors Journal, IEEE Photonics Journal, Journal of Infrared, Millimeter, and Terahertz Waves, and PLOS ONE. Profile: Google Scholar | Scopus | ORCID Featured Publications Iftikhar, U. D., Abbasi, N. A., Ullah, W., Ullah, S., Ouameur, M. A., & Jayakody, D. N. K. (2024). A novel and compact metamaterial‐based four‐element MIMO antenna system for millimeter‐wave wireless applications with enhanced isolation. International Journal of Antennas and Propagation, 2024(1), 7480655. (7 citations) Hamza, M. N., Islam, M. T., Lavadiya, S., Iftikhar, U. D., Sanches, B., Koziel, S., & Naqvi, S. I. (2025). Design and validation of ultra-compact metamaterial-based biosensor for non-invasive cervical cancer diagnosis in terahertz regime. PLOS ONE, 20(2), e0311431. (6 citations) Hamza, M. N., Islam, M. T., Lavadiya, S., Iftikhar, U. D., Sanches, B., Koziel, S., & Naqvi, S. I. (2025). Ultra-compact quintuple-band terahertz metamaterial biosensor for enhanced blood cancer diagnostics. PLOS ONE, 20(1), e0313874. (20 citations) Abbasi, N. A., Virdee, B., Iftikhar, U. D., Ullah, S., Althuwayb, A. A., Rashid, N., & Soruri, M. (2025). High-isolation array antenna design for 5G mm-wave MIMO applications. Journal of Infrared, Millimeter, and Terahertz Waves, 46(1), 12. (12 citations) Mr. Iftikhar ud Din | Applied Electromagnetics | Young Researcher Award
Mr. Iftikhar ud Din is an accomplished researcher and academic specializing in Telecommunication Engineering, with expertise in antenna design, applied electromagnetics, microwave and millimeter-wave systems, and metamaterial-based biosensors. He is currently pursuing his Ph.D. at the University of Quebec at Trois-Rivières (UQTR), Canada, focusing on the design and prototyping of reconfigurable intelligent surface (RIS)-aided communication systems, a cutting-edge area driving advancements in 6G networks. He holds a Master’s in Telecommunication Engineering and a B.Sc. (Hons.) in Telecommunication Engineering from the University of Engineering and Technology (UET), Peshawar, Pakistan, where his theses focused on metasurface-based 5G antennas and ultra-wideband circular monopole antennas. Professionally, Mr. Iftikhar is associated with the Electromagnetic and Antenna Research Group (EMARG) at UET Mardan, contributing to the design and analysis of high-gain antennas for sub-6 GHz and millimeter-wave spectrums. His research interests include reconfigurable intelligent surfaces (RIS), metamaterial-based antenna systems, terahertz nano-biosensors, and electromagnetic sensing for biomedical and communication applications, integrating AI-based simulation and optimization approaches. His research skills encompass electromagnetic simulation, antenna miniaturization, high-frequency modeling, and metamaterial design for next-generation sensors and communication systems. With 26 Scopus-indexed publications and 351 citations by 253 documents (Scopus ID: 57222105830), his work has been featured in prestigious journals such as IEEE Sensors Journal, IEEE Photonics Journal, Journal of Infrared, Millimeter, and Terahertz Waves, and PLOS ONE. Profile: Google Scholar | Scopus | ORCID
Featured Publications Iftikhar, U. D., Abbasi, N. A., Ullah, W., Ullah, S., Ouameur, M. A., & Jayakody, D. N. K. (2024). A novel and compact metamaterial‐based four‐element MIMO antenna system for millimeter‐wave wireless applications with enhanced isolation. International Journal of Antennas and Propagation, 2024(1), 7480655. (7 citations) Hamza, M. N., Islam, M. T., Lavadiya, S., Iftikhar, U. D., Sanches, B., Koziel, S., & Naqvi, S. I. (2025). Design and validation of ultra-compact metamaterial-based biosensor for non-invasive cervical cancer diagnosis in terahertz regime. PLOS ONE, 20(2), e0311431. (6 citations) Hamza, M. N., Islam, M. T., Lavadiya, S., Iftikhar, U. D., Sanches, B., Koziel, S., & Naqvi, S. I. (2025). Ultra-compact quintuple-band terahertz metamaterial biosensor for enhanced blood cancer diagnostics. PLOS ONE, 20(1), e0313874. (20 citations) Abbasi, N. A., Virdee, B., Iftikhar, U. D., Ullah, S., Althuwayb, A. A., Rashid, N., & Soruri, M. (2025). High-isolation array antenna design for 5G mm-wave MIMO applications. Journal of Infrared, Millimeter, and Terahertz Waves, 46(1), 12. (12 citations)