[1]2017.09 – 2023.02 Ph.D., Electrical Engineering, City University of Hong Kong
[2]2015.09 – 2016.10 M.Sc., Electrical Engineering, City University of Hong Kong,
[3]2009.09 – 2013.07 B.Sc., Physics, Fudan University
2. Working Experience
[1]2026.01 – Present Assistant Professor, College of Electronics and Information Engineering, Shenzhen University
[2]2023.06 – 2025.12 Assistant Professor, College of Physics and Electronic Engineering, Sichuan Normal University
[3]2022.12 – 2025.05 Postdoc, Dept. of Electrical Engineering, City University of Hong Kong
[4]2016.10 – 2017.08 Research Assistant, City University of Hong Kong Shenzhen Research Institute
3. Current Research Directions
[1]MMW and THz metasurfaces
[2]Metasurface antennas
[3]Surface plasmon polaritons
4. Representative Publications (20篇以内)
[1]C. Qi and A. M. H. Wong, “Simultaneously Enhancing Radiation and Aperture Efficiencies of Leaky Wave Antennas Using Discrete Metasurfaces.” IEEE Transactions on Antennas and Propagation, 73.9 (2025): 6403-6413.
[2]C. Qi, X. He, B. Ren, and A. M. H. Wong, “Broadband terahertz metalenses based on printed circuit board fabrication.” Advanced Optical Materials 12.11 (2024): 2302459.
[3]C. Qi and A. M. H. Wong, “Discrete Huygens’ metasurface: Realizing anomalous refraction and diffraction mode circulation with a robust, broadband and simple design.” IEEE Transactions on Antennas and Propagation 70.8 (2022): 7300-7305.
[4]C. Qi and A. M. H. Wong, “Broadband efficient anomalous reflection using an aggressively discretized metasurface.” Optics Express 30.9 (2022): 15735-15746.
[5]C. Qi, S. Liao, and Q. Xue, “Frequency splitter based on spoof surface plasmon polariton transmission lines.” Applied Physics Letters 113.16 (2018): 161902.
[6]B. Ren, C. Qi, X. He, P. Li, and A. M. H. Wong, “A self-adaptive reconfigurable metasurface for electromagnetic wave sensing and dynamic reflection control.” Advanced Science (2025): e05155.
[7]X. He, C. Qi, S. Lei, and A. M. H. Wong, “Polarization-independent achromatic Huygens’ metalens with large numerical aperture and broad bandwidth.” Nanophotonics 12.18 (2023): 3633-3644.
[8]X. He, C. Qi, and A. M. H. Wong, “A Compact Transparent Polarization-insensitive Metasurface with Broadband Monostatic and Bistatic Radar Cross-Section Reduction of Millimeter-Waves.” Journal of Physics D: Applied Physics 55 (2022): 355104.
[9]S. Liao, C. Qi, Q. Xue, “Effective bandpass filtering for spoof surface plasmon polariton transmission line.” Applied Physics Express (2019): 12 054501.
