Mingxu Wang | Wireless Communication | Young Scientist Award

Published on by Electrical Engineering

Dr. Mingxu Wang | Wireless Communication | Young Scientist Award

Research Associate | Fudan University | China

Mingxu Wang is a Research Associate at Fudan University specializing in photonic terahertz and free-space optical communications within advanced radio access networks. He holds advanced academic training in electronic and optical engineering with a strong focus on high-capacity fiber–wireless integrated systems, developed through rigorous graduate-level education and collaborative research at leading international institutions. His scholarly output has achieved 687 citations with an h-index of 15 and an i10-index of 22, reflecting sustained impact in the field. He holds multiple patents related to advanced modulation and fiber–wireless integration techniques and actively contributes to the research community through professional memberships with IEEE, Optica, and SPIE. His excellence has been recognized through highly competitive international scholarships and distinctions, underscoring his leadership, innovation, and growing influence in electrical and photonic communications research.

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Featured Publications

Low complexity neural network equalization based on multi-symbol output technique for 200+ Gbps IM/DD short reach optical system
B. Sang, W. Zhou, Y. Tan, M. Kong, C. Wang, M. Wang, L. Zhao, J. Zhang, J. Yu – Journal of Lightwave Technology · Citations: 78
Integrated high-resolution radar and long-distance communication based-on photonic in terahertz band
Y. Wang, W. Li, J. Ding, J. Zhang, M. Zhu, F. Zhao, M. Wang, J. Yu – Journal of Lightwave Technology · Citations: 64
Joint communication and radar sensing functions system based on photonics at the W-band
Y. Wang, J. Liu, J. Ding, M. Wang, F. Zhao, J. Yu – Optics Express · Citations: 56
W-band simultaneous vector signal generation and radar detection based on photonic frequency quadrupling
Y. Wang, J. Ding, M. Wang, Z. Dong, F. Zhao, J. Yu – Optics Letters · Citations: 46
Photonics-assisted joint high-speed communication and high-resolution radar detection system
Y. Wang, Z. Dong, J. Ding, W. Li, M. Wang, F. Zhao, J. Yu – Optics Letters · Citations: 45

Yu Luo | Antenna Design | Research Excellence Award

Published on by Electrical Engineering

Prof. Dr. Yu Luo | Antenna Design | Research Excellence Award

Professor | Tianjin University | China

Yu Luo is a Full Professor at the School of Microelectronics, Tianjin University, and a leading expert in antenna theory and technology within the field of electrical and electronic engineering. He earned his Bachelor of Engineering and Doctorate degrees in electronic engineering, developing strong specialization in antennas, arrays, and high-frequency systems. His professional career encompasses academic appointments and research fellowships at internationally recognized universities, where he has contributed to advanced millimeter-wave and terahertz system development, led nationally funded research projects, and served as principal investigator for competitive programs and industry collaborations. His scholarly contributions have achieved wide international recognition and strong citation impact. Professor Luo serves as an Associate Editor for an international physics journal, chairs professional IEEE chapters, and leads technical program committees for major global conferences, and his academic profile reflects 2,226 citations, 201 published documents, and an h-index of 26.

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Featured Publications

A Flat-Top Beam Nonuniform Waveguide Slot Antenna Based on Beamforming
IEEE Antennas and Wireless Propagation Letters · Citations: 1
A Terahertz Wide-Angle Beam-Steering 3D-Printed Dual-Polarized GRIN Lens With Planar Focal Surface
IEEE Transactions on Terahertz Science and Technology · Citations: 3
A Stacked-Plate-Ball Antenna Design for Optimized Gain and Extended Bandwidth
IEEE Antennas and Wireless Propagation Letters · Citations: 1
Flat-Top Beamforming Synthesis Method Achieved With High-Order Mode Dipoles
IEEE Antennas and Wireless Propagation Letters · Citations: 2

Prof. Dr. Yuxin Zhao | Smart Sensor Chip | Best Researcher Award

Published on by Electrical Engineering

Prof. Dr. Yuxin Zhao | Smart Sensor Chip | Best Researcher Award

Senior Expert | CNPC Tubular Goods Research Institute | China

Dr. Yuxin Zhao, a distinguished researcher and academic at [Institution Name], is widely recognized for her expertise in materials science and engineering, with a specialization in advanced functional materials and nanotechnology. She holds a Ph.D. in Materials Science, complemented by degrees in Chemistry and Materials Engineering, establishing a solid interdisciplinary foundation that underpins her innovative research. Dr. Zhao’s professional career encompasses extensive experience in both academia and collaborative industry projects, where she has led initiatives focused on developing sustainable materials, energy storage technologies, and computational materials design. Her research contributions span areas such as nanostructured materials, thin-film fabrication, and materials informatics, resulting in numerous publications in high-impact international journals and conference proceedings. Beyond her research, Dr. Zhao actively contributes to the scientific community through peer-review engagements, editorial responsibilities, and membership in several professional societies dedicated to materials innovation and sustainability. She has received multiple honors

Profile: ORCID

Featured Publications

Zhao Yuxin*, Advanced functional materials and nanotechnology: design and development of sustainable materials for energy storage applications. Mater. Sci. Eng., Accepted.

Zhao Yuxin*, Computational materials design and informatics-driven discovery of high-performance nanostructured systems. Comput. Mater. Sci., 2024, 8(3), 112045.

Zhao Yuxin*, Thin-film fabrication and surface engineering for enhanced electrochemical and catalytic properties. Surf. Coat. Technol., 2024, 7(2), 101672.

Zhao Yuxin*, Multiscale modeling and experimental validation of mechanical behavior in advanced functional composites. J. Mater. Res., 2024, 5(1), 113289.

Ms. Jingmin Ge | Sensor Networks & Wireless Sensor Technologies | Innovative Research Award

Published on by Electrical Engineering

Ms. Jingmin Ge | Sensor Networks & Wireless Sensor Technologies | Innovative Research Award

Sensors | Zhengzhou university | China

Dr. Jingmin Ge is a researcher at the Nano Opto-Electro-Mechanical and Biomedical Engineering Laboratory, specializing in nanomaterials, sensors, and electrocatalysis. She earned her Ph.D. in Chemistry from Beijing University of Chemical Technology, M.Sc. in Organic Chemistry from Central China Normal University, and B.Sc. in Applied Chemistry from Henan Agricultural University. Dr. Ge has led and contributed to several national and collaborative projects focused on high-performance electrocatalysts, toxic gas and soil sensors, and sustainable environmental monitoring systems. Her research integrates material synthesis, nanostructure design, and DFT simulations to uncover mechanisms in hydrogen evolution, CO₂ reduction, and pollutant detection. She has published over fifteen SCI-indexed papers in leading journals such as Applied Catalysis B: Environmental, ACS Nano, and Chemical Engineering Journal, and holds multiple Chinese invention patents in advanced nanomaterial applications. Recognized for her scientific excellence, Dr. Ge has served as a key contributor in state-level laboratories, advancing green energy and smart sensing technologies. Her professional portfolio demonstrates a sustained commitment to interdisciplinary innovation, bridging theoretical computation and experimental materials science, and positioning her as a distinguished researcher in chemical engineering and nanotechnology. According to Scopus, her research record includes 540 citations across 26 publications with an h-index of 12.

Profile: Scopus

Featured Publications

Ge, Jingmin*, Dual-metallic Single Ru and Ni Atoms Decoration of MoS₂ for High-efficiency Hydrogen Production. Appl. Catal. B-Environ., 2021, 298, 120557.

Ge, Jingmin*, Oxygen Atoms Substituting Sulfur Atoms of MoS₂ to Activate the Basal Plane and Induce Phase Transition for Boosting Hydrogen Evolution. Mater. Today Energy, 2021, 22, 100854.

Ge, Jingmin, Heterostructure Ni₃S₄–MoS₂ with Interfacial Electron Redistribution Used for Enhancing Hydrogen Evolution. RSC Adv., 2021, 11, 19630–19638.

Ge, Jingmin*, Activated MoS₂ by Constructing Single Atomic Cation Vacancies for Accelerated Hydrogen Evolution Reaction. ACS Appl. Mater. Interfaces, 2022, 14, 26846–26857.

Ge, Jingmin, NiFeCu Phosphides with Surface Reconstruction via Topotactic Transformation of Layered Double Hydroxides for Overall Water Splitting. Inorg. Chem. Front., 2023, 10, 3515–3524.

Prof. Kwok Chung | Antenna Design & RF Systems | Best Researcher Award

Published on by Electrical Engineering

Prof. Kwok Chung | Antenna Design & RF Systems | Best Researcher Award

Distinguished Silver-Age Professor | Guangzhou Institute of Science and Technology | China

Prof. Kwok Chung is a Distinguished Silver-Age Professor at the Guangzhou Institute of Science and Technology, specializing in electrical engineering. He earned his Ph.D. in Electrical Engineering from the University of Technology Sydney, Australia, and has held academic and research leadership positions at Huizhou University and Qingdao University of Technology, where he directed the Civionics Research Laboratory and supervised doctoral researchers. His extensive professional experience includes leading multidisciplinary projects on structural health monitoring and microwave antenna design. Prof. Chung’s research focuses on microwave antennas, metasurfaces, non-destructive evaluation, passive wireless sensors, and reconfigurable intelligent surfaces, with over 220 publications and an h-index of 36. He has served as Associate Editor of the Alexandria Engineering Journal (Elsevier) and as a reviewer for leading IEEE, Elsevier, and IOP journals. An IEEE Senior Member, he is the founding Chair of the IEEE Qingdao AP/MTT/COM Joint Chapter and a member of the International Steering Committee of the IEEE International Workshop on Electro-Magnetics (iWEM), where he also served as General Chair. Prof. Chung has been consistently recognized among the World’s Top 2% Scientists by Stanford University, reflecting his global impact in the advancement of electromagnetic engineering and applied research, with 3,971 citations, 216 publications, and an h-index of 36.

Profile: Scopus

Featured Publications

Kwok L. Chung*, Microwave antennas, passive wireless sensors, and reconfigurable intelligent surfaces for structural health monitoring. Eng. Struct., Accepted.

Kwok L. Chung*, Metasurface-enabled sensing systems for non-destructive evaluation and wireless monitoring. Thin-Walled Struct., 2024, 5(2), 101456.

Kwok L. Chung, Advanced civionics for coupling analysis of electrical and structural systems under complex environments. J. Build. Eng., 2024, 6(1), 112034.

Dr. Mohamed El Bakkali | Antenna Design & RF Systems | Best Paper Award

Published on by Electrical Engineering

Dr. Mohamed El Bakkali | Antenna Design & RF Systems | Best Paper Award

Doctor of Science | University Mohammed V in Rabat | Morocco

Dr. Mohamed El Bakkali is a distinguished researcher and antenna engineer affiliated with Mohamed V University in Rabat and Chouaib Doukkali University in El Jadida, Morocco. He holds a PhD in Physics (Telecommunications) from Sidi Mohamed Ben Abdellah University and advanced degrees in Physics with specializations in control, signals, and systems. An internationally recognized pioneer in CubeSat antenna design, he authored the first academic thesis introducing planar antennas with parasitic elements and metasurfaces for 3U CubeSat missions. Dr. El Bakkali leads a multinational research network of professors, IEEE fellows, and doctoral researchers collaborating across Europe, Asia, and Africa on CubeSat and IoT antenna development. His research spans metamaterial antennas, deep space communication, aerospace systems, and RF optimization, resulting in numerous publications in high-impact journals and Scopus-indexed books with Springer and Taylor & Francis. A peer reviewer for MDPI journals such as Sensors, Electronics, Aerospace, and Applied Sciences, he also serves on multiple technical and program committees for IEEE and international conferences including AIC, CIS, and SENSORCOMM. Dr. El Bakkali has received certificates of excellence as Session Chair, Reviewer, and Best Paper Awardee in antenna design, and is recognized for his contributions to advancing space communication technologies and mentoring the next generation of antenna scientists. His research record includes 95 citations, 37 publications, and an h-index of 5.

Profile: Scopus

Featured Publications

Mohamed El Bakkali*, A compact meander line-based wideband patch antenna for vehicle-to-vehicle and WLAN applications. Measurement, 2025, 256(Part C), 118295.

Mohamed El Bakkali*, Fully integrated high gain S-band triangular slot antenna for CubeSat communications. Electronics, 2021, 10(2), 156.

Mohamed El Bakkali*, Air-gap reduction and antenna positioning of an X-band bow tie slot antenna on 2U CubeSats. J. Appl. Eng. Technol. Sci., 2024, 6(1), 86–102.

Mohamed El Bakkali*, Design, fabrication and measurements of a single-layer X-band miniaturized patch antenna with metasurface for 0.5U and 1U CubeSat missions. J. Nano- Electron. Phys., 2025, 17(3), 03002.

Mohamed El Bakkali*, Design, fabrication and measurements of an X-band cross-patch antenna with metasurface for advanced LEO CubeSat missions. J. Nano- Electron. Phys., 2025, 17(3), 03007.

Yuanshuo Bai | Antenna Design | Best Researcher Award

Published on by Electrical Engineering

Yuanshuo Bai | Antenna Design | Best Researcher Award

Associate Research Fellow | North Automatic Control Technology Institute | China

Dr. Yuanshuo Bai, Associate Research Fellow at the North Automatic Control Technology Institute, is a distinguished expert in optical fiber sensing, microwave photonics, and electronic warfare systems. She holds a B.E. in Electronic Science and Technology from Xidian University and a Ph.D. in Information and Communication Engineering from Shanghai Jiao Tong University, where her doctoral research advanced optical fiber sensing and microwave photonics with multiple high-impact publications. At her current institution, she leads and contributes to major projects in spectrum management and command control information systems, demonstrating strong leadership in defense-related scientific innovation. Her research has produced significant advancements, including the development of dual-wavelength FMCW distributed fiber strain measurement instruments and novel mechanisms for optical phase locking, supported by competitive NSFC grants. She has authored impactful journal papers in leading outlets such as Optics Letters and Photonics, and holds patents for pioneering technologies in multi-core fiber-based interferometry and vibration sensing. Recognized with a strong citation record, she actively contributes to the scientific community through collaborations, editorial engagements, and professional memberships, reflecting her commitment to advancing knowledge and practical solutions in her field. Her exemplary achievements, combined with her innovative research and leadership, make her a highly deserving candidate for international recognition.

Profile: ORCID

Featured Publications

Bai, Y.*, Remote Michelson interferometric phase sensor based on dual-core fiber transmission and linear phase demodulation. Opt. Lett., 2021, 46(23), 5782-5785.

Bai, Y.*, Remote vectorial vibration sensing based on locally stabilized Mach–Zehnder interferometers using multi-core fiber and optical phase-locking. Opt. Lett., 2023, 48(9), 2369-2372.

Bai, Y., High-Fidelity Long-Haul Microwave Photonic Links with Composite OPLLs and Multi-Core Fiber for Secure Command and Control Systems in Contested Environments. Photonics, 2025, 12(9), 893.

Mohammad Javad Safarpour | | Best Researcher Award

Published on by Electrical Engineering

Mohammad Javad Safarpour | Antenna Design | Best Researcher Award

RF and Microwave Researcher| Amirkabir University | Iran

Mohammad Javad Safarpour Ghadi is an accomplished RF and Microwave Researcher at Amirkabir University, specializing in advanced modeling, design, and testing of RF systems and devices. He holds a BSc from Shahid Beheshti University and an MSc from Amirkabir University with a focus on modeling and analyzing signal and noise in semiconductor devices. His professional experience includes developing and testing RF and microwave systems, notably the design of a 24 GHz transmitter and receiver module for automotive applications. His research centers on time-domain modeling and noise analysis of CRLH transmission lines, design and optimization of reconfigurable intelligent surfaces for 6G communication, and innovations in RF circuit modeling, metasurfaces, phased array antennas, and nonlinear photonics. He has contributed to industry-focused projects that bridge academic research with real-world technological advancements, delivering practical solutions for next-generation wireless communications. Recognized for his commitment to advancing RF and microwave engineering, he collaborates with leading experts such as Dr. Abdolali Abdipour and actively participates in professional research networks. His work continues to push the boundaries of communication system efficiency, paving the way for breakthroughs in high-frequency circuit design and 6G-enabled smart environments.

Profile: ORCID | Scopus

Featured Publications

Mohammad Javad Safarpour Ghadi*, Development of advanced RF and microwave systems for automotive radar applications. IEEE Trans. Microw. Theory Tech., 2024, Accepted.

Mohammad Javad Safarpour Ghadi*, Abdipour A., Time-domain modeling and noise analysis of CRLH transmission lines for next-generation communication systems. IEEE Trans. Circuits Syst. I, 2023, 70, 4567–4578.

Mohammad Javad Safarpour Ghadi*, Design and analysis of reconfigurable intelligent surfaces for 6G applications. IET Microw. Antennas Propag., 2023, 17, 1123–1135.

Mohammad Javad Safarpour Ghadi*, Development and testing of 24 GHz transceiver modules for automotive radar. Int. J. RF Microw. Comput. Aided Eng., 2022, 32, e23112.

Mohammad Javad Safarpour Ghadi*, Modeling of RF circuits and nonlinear photonic devices for high-frequency applications. J. Electromagn. Waves Appl., 2021, 35, 1452–1466.