Senior Lecturer | SEGi University | Malaysia
Dr. Nurulazlina Bt Ramli, affiliated with SEGi University, Petaling Jaya, Malaysia, is an accomplished researcher whose work bridges microwave engineering, wearable electronics, energy harvesting, and smart technology integration. With 67 publications, 512 citations, and an h-index of 11, she has significantly contributed to the advancement of intelligent and sustainable electronic systems. Her research portfolio spans a wide spectrum—from textile metasurface antennas and RFID-based smart agriculture to triboelectric nanogenerators and adaptive virtual impedance control for distributed power systems—reflecting a strong multidisciplinary approach that unites materials science, electromagnetics, and the Internet of Things (IoT). Dr. Ramli’s recent works, such as the development of nylon-11/BaTiO₃-PVDF triboelectric nanogenerators and orbital angular momentum wearable antennas for sub-6 GHz 5G, underscore her commitment to practical innovation with societal and industrial relevance. Through collaborations with over 100 co-authors, she continues to expand the frontiers of smart textiles, sustainable energy solutions, and advanced communication systems. Her growing impact within both the academic and applied engineering communities demonstrates an ongoing pursuit to enhance human life through integrated, energy-efficient, and health-oriented technologies.
Profiles: Scopus | Google Scholar
Featured Publications
1. Noor, S. K., Yasin, M. N. M., Ismail, A. M., Osman, M. N., Soh, P. J., & Ramli, N., et al. (2022). A review of orbital angular momentum vortex waves for the next generation wireless communications. IEEE Access, 10, 89465–89484.
Cited by: 91
2. Adam, I., Yasin, M. N. M., Ramli, N., Jusoh, M., Rahim, H. A., Latef, T. B. A., et al. (2019). Mutual coupling reduction of a wideband circularly polarized microstrip MIMO antenna. IEEE Access, 7, 97838–97845.
Cited by: 69
3. Ramli, N., Noor, S. K., Rahman, N. H. A., & Khalifa, T. (2020). Design and performance analysis of different dielectric substrate based microstrip patch antenna for 5G applications. International Journal of Advanced Computer Science and Applications, 11(8).
Cited by: 65
4. Ramli, N., Ali, M. T., Islam, M. T., Yusof, A. L., & Muhamud-Kayat, S. (2015). Aperture-coupled frequency and patterns reconfigurable microstrip stacked array antenna. IEEE Transactions on Antennas and Propagation, 63(3), 1067–1074.
Cited by: 53
5. Ali, M. T., Ramli, N., Salleh, M. K. M., & Tan, M. N. M. (2011). A design of reconfigurable rectangular microstrip slot patch antennas. 2011 IEEE International Conference on System Engineering and Technology, 111–115.
Cited by: 51
Dr. Ramli envisions a future where intelligent, flexible, and sustainable electronic systems empower communities and industries toward a more connected and energy-efficient world. Her work bridges innovation and practicality, driving technological transformation in healthcare, agriculture, and renewable energy through interdisciplinary research.
