Mengyao Li | Engineering | Best Researcher Award

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Dr. Mengyao Li | Engineering | Best Researcher Award

Student at Nanyang Technological University Singapore

Mengyao Li is a dedicated researcher specializing in electromagnetic fields, metasurfaces, and frequency-selective structures. With a strong academic foundation and a passion for advancing next-generation communication and radar technologies, Li has made significant contributions to the field of low-RCS antenna-radome systems, lens antennas, and THz reconfigurable intelligent surfaces. His research focuses on innovative solutions that enhance wave manipulation, beamforming, and scattering control, making a direct impact on applications in wireless communication and stealth technology. As a Ph.D. candidate at Nanyang Technological University (NTU), Singapore, under the guidance of Prof. Shen Zhongxiang (IEEE Fellow), Li has published extensively in top-tier journals and continues to explore novel electromagnetic solutions. His work not only bridges theoretical advancements with practical applications but also aligns with the future demands of 6G wireless networks and advanced sensing technologies, solidifying his position as an emerging expert in the field.

Professional Profile

Education

Mengyao Li began his academic journey with a B.S. in Electrical Engineering from the Communication University of China, Beijing, specializing in Telecommunication Engineering. Graduating in 2020 with a GPA of 3.59/4.0, he ranked among the top 8% of students and was recognized as an Outstanding Graduate of Beijing. His undergraduate research focused on reconfigurable frequency-selective absorbers, laying a strong foundation for his future work. In January 2021, he pursued a Ph.D. in Electrical and Electronic Engineering at Nanyang Technological University, Singapore, specializing in Electromagnetic Fields and Microwave Technology. Under the supervision of Prof. Shen Zhongxiang, his doctoral research centers on low-RCS integrated radome and antenna systems, aiming to develop advanced solutions for stealth technology and wireless communication. Throughout his academic career, Li has demonstrated strong analytical skills and research capabilities, contributing to the advancement of electromagnetic and antenna engineering.

Professional Experience

As a Ph.D. researcher at Nanyang Technological University, Mengyao Li has been actively engaged in cutting-edge research in the field of electromagnetic wave manipulation, metasurfaces, and antenna systems. His professional work focuses on designing low-RCS antennas, frequency-selective structures, and THz reconfigurable intelligent surfaces, contributing to innovations in stealth technology and high-frequency communication. Collaborating with leading academics and industry experts, he has developed practical solutions for beam manipulation, conformal lens antennas, and ultra-wideband absorptive structures. His research has been published in top IEEE journals, showcasing his ability to bridge theoretical concepts with practical engineering applications. In addition to research, he actively mentors junior researchers, contributes to technical discussions, and engages in academic collaborations to advance antenna and metamaterial technologies. His expertise and technical acumen make him a promising figure in the field of advanced electromagnetic applications.

Research Interests

Mengyao Li’s research interests lie at the intersection of electromagnetic wave engineering, metasurfaces, and reconfigurable intelligent surfaces (RIS), with a strong emphasis on low-RCS antenna-radome systems, lens antennas, and THz wireless communication. His work on low-scattering antenna structures contributes to stealth and radar applications, while his innovative metasurface designs enable advanced beam steering and polarization control. Additionally, he explores MEMS-based THz metasurfaces, which hold promise for 6G wireless networks and high-frequency communication systems. His research on frequency-selective structures and transmissive antennas bridges the gap between traditional electromagnetic theory and modern reconfigurable technologies. By integrating material science, physics, and advanced fabrication techniques, Li’s research aims to create high-performance, miniaturized, and dynamically tunable electromagnetic structures, making a significant impact on next-generation wireless technologies and radar systems.

Awards and Honors

Throughout his academic journey, Mengyao Li has received multiple recognitions for his research excellence. As an Outstanding Graduate of Beijing, he was acknowledged for his academic performance and early contributions to telecommunication engineering. His Ph.D. research at NTU has been supported by prestigious funding, reflecting the significance of his work in low-RCS antenna systems and metasurface engineering. His journal publications in IEEE Transactions on Antennas and Propagation and IEEE Antennas Wireless Propagation Letters further highlight his research impact in the field. Li’s innovative contributions to reconfigurable intelligent surfaces and frequency-selective radomes have been well-received in the academic community, earning him invitations to collaborate with leading researchers. With his strong research background and growing influence in electromagnetic wave control and antenna design, he continues to make valuable contributions to the field, positioning himself as a rising expert in advanced electromagnetics and wireless technology.

Conclusion

Mengyao Li is a strong candidate for the Best Researcher Award, with a solid publication record, cutting-edge research contributions, and expertise in emerging electromagnetic technologies. However, improving the real-world impact, conference visibility, and interdisciplinary collaboration could further solidify the case for this award. If these areas are strengthened, Mengyao Li could become a leading figure in electromagnetic and metasurface research.

Publications Top Noted

  • Y. Ding, M. Li, J. Su, Q. Guo, H. Yin, Z. Li, J. Song – 2020 – 70 citations
    “Ultrawideband frequency-selective absorber designed with an adjustable and highly selective notch.”
    IEEE Transactions on Antennas and Propagation 69 (3), 1493-1504

  • M. Li, L. Zhou, Z. Shen – 2021 – 30 citations
    “Frequency selective radome with wide diffusive bands.”
    IEEE Antennas and Wireless Propagation Letters 21 (2), 327-331

  • M. Li, Z. Shen – 2023 – 13 citations
    “Low-RCS transmitarray based on 2.5-D cross-polarization converter.”
    IEEE Transactions on Antennas and Propagation 71 (7), 5828-5837

  • M. Li, Z. Shen – 2023 – 5 citations
    “Integrated diffusive antenna array of low backscattering.”
    IEEE Antennas and Wireless Propagation Letters

  • M. Li, Z. Shen – 2022 – 3 citations
    “Hybrid Frequency Selective Rasorber Combining 2-D and 3-D Resonators.”
    2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI

  • M. Li, J. Su – 2020 – 1 citation
    “Wideband frequency-selective absorber based on metal cross ring.”
    2020 IEEE MTT-S International Microwave Workshop Series on Advanced

  • M. Li, Z. Shen – 2024 – Not yet cited
    “Hybrid Rasorber Based on 3-D Bandpass Frequency-Selective Structures.”
    IEEE Antennas and Wireless Propagation Letters

  • M. Li – 2024 – Not yet cited
    “Integrated radome and antenna systems of low radar cross section.”
    Nanyang Technological University (Ph.D. Dissertation)

  • M. Li, Z. Shen – 2023 – Not yet cited
    “Highly Selective Third-Order Bandpass Frequency Selective Surface.”
    2023 International Conference on Electromagnetics in Advanced Applications

  • M. Li, Z. Shen – 2023 – Not yet cited
    “Transmission Phase Controllable Rasorber Using All-Metal Cross-Polarization Converter.”
    2023 IEEE International Symposium on Antennas and Propagation and USNC-URSI

  • M. Li, Z. Shen – 2022 – Not yet cited
    “Low-RCS Transmitarray Using Phase Controllable Absorptive Frequency-Selective Structure.”
    2022 International Conference on Electromagnetics in Advanced Applications

  • M. Li, Z. Shen – 2021 – Not yet cited
    “RCS Reduction of Slot Antenna Array Using Coding Metasurfaces.”
    2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI

Kaili Wang | Engineering | Best Researcher Award

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Ms. Kaili Wang | Engineering | Best Researcher Award

Student at NB U, China

MS Kaili Wang is a distinguished researcher in the field of gene editing and molecular diagnostics, specializing in nucleic acid detection for agricultural biotechnology. She is affiliated with Ningbo University, School of Food Science and Engineering, China, and collaborates with Zhejiang Academy of Agricultural Sciences and the State Key Laboratory for Managing Biotic and Chemical Threats to the Quality and Safety of Agro-products. With a keen interest in genetic modification detection, her research focuses on improving the precision and sensitivity of detection methods for gene-edited organisms. Her recent work on droplet digital PCR (ddPCR) for MSTN gene-edited cattle has contributed significantly to the field of regulatory science and food safety. Dedicated to advancing biotechnology applications, she plays a crucial role in shaping methodologies for genetic monitoring, ensuring consumer safety, and fostering global discussions on gene editing and its implications.

Professional Profile

Education

MS Kaili Wang pursued her higher education in biotechnology, molecular biology, and food science, which provided a strong foundation for her research career. She earned her degrees from prestigious Chinese institutions, including Ningbo University, where she specialized in food science and genetic detection methods. Her academic training emphasized molecular diagnostics, genetic engineering, and PCR-based technologies, equipping her with the expertise necessary to develop innovative detection methods for genetically modified organisms (GMOs). Throughout her education, she engaged in interdisciplinary research, gaining hands-on experience in genetic modification analysis, nucleic acid quantification, and regulatory science. Her studies were complemented by rigorous laboratory work and collaborations with leading scientists in the field. This educational background has enabled her to contribute significantly to the advancement of gene-editing detection technologies, ensuring accuracy, sensitivity, and reliability in molecular diagnostics.

Professional Experience

With extensive experience in genetic research and molecular diagnostics, MS Kaili Wang has worked as a researcher at Ningbo University and in collaboration with Zhejiang Academy of Agricultural Sciences. She has been instrumental in developing innovative nucleic acid detection methods for gene-edited organisms, particularly using droplet digital PCR (ddPCR). Her work focuses on the safety assessment, traceability, and detection of genetically modified products, making a significant impact in the field of food safety and agricultural biotechnology. She has contributed to multiple high-impact research projects, collaborating with government agencies, regulatory bodies, and scientific institutions to establish robust methodologies for genetic monitoring. Her professional expertise extends to training young researchers, publishing peer-reviewed articles, and presenting her findings at international conferences related to gene editing and food safety. Her work plays a critical role in ensuring the accurate detection and regulation of gene-edited agricultural products.

Research Interests

MS Kaili Wang’s primary research interests lie in gene editing, nucleic acid detection, food safety, and molecular diagnostics. She is particularly focused on developing and optimizing PCR-based techniques, including ddPCR, qPCR, and CRISPR-based detection methods. Her research aims to enhance the specificity, sensitivity, and reliability of gene-editing detection, ensuring consumer safety and regulatory compliance. She is also deeply interested in the traceability of genetically modified organisms (GMOs) and their impact on food production, security, and public health. Through her work, she seeks to bridge the gap between scientific advancements and regulatory frameworks, contributing to the development of robust detection technologies that can be applied on a global scale. By integrating biotechnology with food safety regulations, she aims to provide innovative solutions for ensuring transparency in agricultural biotechnology and fostering public trust in gene-edited products.

Awards and Honors

Throughout her career, MS Kaili Wang has received numerous recognitions for her contributions to gene editing detection and food safety research. She has been honored with awards from academic institutions, regulatory bodies, and biotechnology organizations for her innovative work in nucleic acid quantification and molecular diagnostics. Her research on ddPCR-based detection of MSTN gene-edited cattle has gained international recognition, positioning her as a leading scientist in genetic monitoring and food safety regulation. She has been invited as a keynote speaker at scientific conferences, sharing her expertise on gene editing detection methodologies. Additionally, she has received grants and funding from government agencies to further her research in gene-editing detection and its application in regulatory science. Her dedication and contributions to biotechnology and food safety continue to make a profound impact, earning her a reputation as a pioneering researcher in the field.

Conclusion

MS Kaili Wang’s research is highly innovative and impactful, making significant contributions to gene editing detection and food safety monitoring. The work demonstrates scientific excellence, regulatory relevance, and technical robustness, making them a strong candidate for the Best Researcher Award. However, further research could focus on expanding the scope of detection beyond MSTN, increasing sample size, and facilitating regulatory adoption to enhance the real-world impact.

Publications Top Noted

Author: Kaili Wang, Yi Ji, Cheng Peng, Xiaofu Wang, Lei Yang, Hangzhen Lan, Junfeng Xu, Xiaoyun Chen
Year: 2025
Citation: Wang, K.; Ji, Y.; Peng, C.; Wang, X.; Yang, L.; Lan, H.; Xu, J.; Chen, X. (2025). “A Novel Quantification Method for Gene-Edited Animal Detection Based on ddPCR.” Biology, 14(2), Article 0203. DOI: 10.3390/biology14020203.
Source: Multidisciplinary Digital Publishing Institute (MDPI)

 

Sunday Olayinka Oyedepo | Mechanical Engineering | Excellence in Research Award

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Prof Dr. Sunday Olayinka Oyedepo | Mechanical Engineering | Excellence in Research Award

Professor, Bells University of Technology, Nigeria

Profile

Orcid

Professor Sunday Olayinka Oyedepo is a highly accomplished academic with over 22 years of experience in teaching and research in Mechanical Engineering. He currently serves as a Professor at Covenant University, Nigeria, and specializes in thermal energy system design, energy management, and sustainable technologies. With numerous publications and collaborations, Professor Oyedepo is recognized for his contributions to energy systems and noise pollution research. He has a rich history of guiding students at various academic levels and is a registered engineer in Nigeria.

Education 🎓

Professor Oyedepo obtained his Bachelor’s degree in Mechanical Engineering from the University of Ilorin, followed by a Master’s degree from the University of Ibadan, both in Nigeria. He completed his PhD at Covenant University, focusing on the thermodynamic performance analysis of gas turbine power plants in Nigeria.

Experience 🌍

Starting his academic career in 2000 as a lecturer at Kwara State Polytechnic, Professor Oyedepo moved to Covenant University in 2005, where he has been pivotal in research and administration. He has supervised multiple PhD, Master’s, and undergraduate students, contributing to both academic and applied engineering practices. He also served as the Head of the Department of Mechanical Engineering at Covenant University from 2017 to 2019.

Research Interests 🔬

Professor Oyedepo’s research focuses on energy system design and optimization, including gas and steam turbine power plants, energy conservation, exergy analysis, renewable energy technologies, heat transfer, and noise pollution control. He is actively involved in studying sustainable energy development and industrial energy management.

Awards 🏆

He was recognized as one of the Top 2% Scholars globally in 2021, based on data published by Elsevier. In December 2021, he received the Outstanding Researcher Award in Mechanical Engineering by STAIR Progressive Forum, India.

Publications Top Notes 📚

Professor Oyedepo has over 170 publications, including notable papers in international journals such as Renewable and Sustainable Energy Reviews, Energy Conversion and Management, and Environmental Monitoring Assessment. Below are some of his key works:

Experimental Investigation of Used Vegetable Oil-Diesel Blends as Alternative to Fossil Fuel in Compression Ignition Engine (2024) – Book Chapter

Experimental investigation of heating values and chemical compositions of selected fuel woods as bio-fuel sources in developing countries (2023) – Fuel

Numerical modeling of heat transfer performance and optimization of car radiator using (H2O/Al2O3) nanofluids as coolant (2022) – Numerical Heat Transfer

Progress in the experimental and computational methods of work function evaluation of materials: A review (2022) – Heliyon

Waste Heat Recovery Technologies: Pathway to Sustainable Energy Development (2021) – Journal of Thermal Engineering