Vice President at National Innovation Center par Excellence, China
Prof. Dr. Yuandong Gu is a distinguished researcher and innovator in microelectronics and sensor technology. He serves as the Vice Dean of the Shanghai Yangtze Delta Innovation Institute and was the Founding Dean of the School of Microelectronics at Shanghai University. With a PhD from the University of Minnesota, Twin Cities (2003), his research focuses on piezoelectric MEMS sensors, photonic metamaterials, and their transformative applications. Prof. Gu has held key leadership roles, including Deputy Executive Director at Singapore’s Institute of Microelectronics and Principal Scientist at Honeywell International Inc. He is the author of over 180 peer-reviewed publications and holds 55 USA/SGP patents. His groundbreaking work has earned him prestigious accolades, such as the Shanghai Talent Program Award (2018) and the Engineering Achievement Award from the Institution of Engineers Singapore.
Profile
Scopus
Prof. Dr. Yuandong Gu earned his PhD in 2003 from the University of Minnesota, Twin Cities, specializing in advanced sensor technologies and microelectronics. His doctoral work laid the foundation for his illustrious career in piezoelectric MEMS sensors and photonic metamaterials, fields where he has made groundbreaking contributions. His strong academic background is complemented by his ability to bridge theoretical research with industrial applications, making him a leader in innovative technology development.
Work Experience đź’Ľ:
Prof. Dr. Yuandong Gu has extensive experience in academia, research, and industry, serving as the Vice President of the Shanghai Yangtze Delta Innovation Institute and Chairman of Shanghai Melon Technology Co., Ltd. He was the Founding Dean of the School of Microelectronics at Shanghai University and a Senior Vice President at SITRI, driving technology commercialization and innovation strategies. At A-STAR Singapore, he led advanced MEMS research as Deputy Executive Director, and at Honeywell International, he managed multi-million-dollar MEMS projects and established the Shanghai Sensors Lab, showcasing his global leadership in microelectronics and sensor technologies.
Skills 🔍
Prof. Dr. Yuandong Gu is a highly skilled researcher and leader with expertise in microelectronics, piezoelectric MEMS technologies, and photonic metamaterials. He excels in strategic planning, technology incubation, and the development of cutting-edge sensor platforms, including pMUTs and MEMS-based force sensing modules. His proficiency in project management, cross-functional team leadership, and research-to-market transformation has been demonstrated through his successful execution of multimillion-dollar projects and the commercialization of innovative technologies. With a strong foundation in intellectual property generation, holding 55 patents, and an extensive publication record, he combines technical expertise with visionary leadership to drive impactful advancements in the field.
Research Interests:
đź“š PublicationsÂ
A 16-channel Si Probe Monolithically Integrated with CMOS Chips for Neural Recording
- Authors: Gou, G.-Y., You, C., Yao, P., Xue, N., Zhao, M.
- Journal: Sensors and Actuators Reports
- Publication Year: 2024
- Volume: 8
- Article Number: 100206
- Open Access
Improved Performance of Acoustically Actuated Magnetoelectric Antenna with FeGa/FeGaB Bilayer
- Authors: Li, K., Zhang, Q., Chang, Y., Zhang, S., Gu, Y.
- Journal: Micromachines
- Publication Year: 2024
- Volume: 15
- Issue: 2
- Article Number: 190
- Open Access
Effect of Humid Environment on Electromechanical Performance of Piezoelectric Micromachined Ultrasonic Transducers (PMUTs)
- Authors: Tong, Z., Wu, Z., Gu, Y.A., Lou, L.
- Journal: Sensors and Actuators A: Physical
- Publication Year: 2024
- Volume: 366
- Article Number: 114821
MHorUNet: High-Order Spatial Interaction UNet for Skin Lesion Segmentation
- Authors: Wu, R., Liang, P., Huang, X., Zhu, H., Chang, Q.
- Journal: Biomedical Signal Processing and Control
- Publication Year: 2024
- Volume: 88
- Article Number: 105517
- Citations: 13
Enhancement in Performance of SAW Resonator on LN/SiC Substrate by Taking Slowness Asymmetry into Account
- Authors: Liu, H.L., Zhang, Q.Z., Sun, H., Gu, Y.D., Wang, N.
- Journal: Journal of Physics: Conference Series
- Publication Year: 2024
- Volume: 2822
- Issue: 1
- Article Number: 012174
A Miniaturized Transit-Time Ultrasonic Flowmeter Based on ScAlN Piezoelectric Micromachined Ultrasonic Transducers for Small-Diameter Applications
- Authors: Gao, Y., Chen, M., Wu, Z., Gu, Y.A., Lou, L.
- Journal: Microsystems and Nanoengineering
- Publication Year: 2023
- Volume: 9
- Issue: 1
- Article Number: 49
- Citations: 15
A Highly Integrated 3D MEMS Force Sensing Module With Variable Sensitivity for Robotic-Assisted Minimally Invasive Surgery
- Authors: Hou, C., Wang, K., Wang, F., Chen, T., Sun, L.
- Journal: Advanced Functional Materials
- Publication Year: 2023
- Volume: 33
- Issue: 43
- Article Number: 2302812
- Citations: 12
ConclusionÂ
Prof. Dr. Yuandong Gu’s extensive contributions to advanced sensor technology, impactful industrial innovations, and dedication to academic mentorship make him a strong candidate for the Research for Best Researcher Award. His balance of academic rigor, innovation, and leadership perfectly aligns with the award’s criteria, reflecting his global stature as a transformative researcher.