Prof. @ Electrical Engineering Department, National Taiwan Ocean University, Taiwan 📖✨
Prof. Jyh-Jier Ho is a distinguished scholar in electrical engineering, specializing in green energy and optoelectronics. Since 2003, he has been a professor at the Electrical Engineering Department of National Taiwan Ocean University (NTOU), where he also serves as Director of the Center for Green Energy and Photo-electronics. From 2021 to 2024, he chaired the department, contributing significantly to research and academic excellence. He collaborates with UCLA’s Device Research Lab, focusing on nano-science and clean technologies. With over 262 publications and more than ten patents, Prof. Ho is a leading figure in high-performance opto-electronic sensing devices. 📡🔬
Profile
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Education 🎓📚
Prof. Jyh-Jier Ho holds advanced degrees in electrical engineering, underpinning his expertise in optoelectronics and green technology. His academic journey includes extensive research in nano-electronics and photonics, contributing to the development of high-performance sensors for medical and environmental applications. His affiliation with renowned institutions, including the University of California, Los Angeles, has further expanded his academic and technological impact. 🌱⚡
Experience 🏫🔧
With a career spanning over two decades, Prof. Ho has been a professor at NTOU since 2003 and Director of the Center for Green Energy and Photo-electronics. From 2021 to 2024, he served as the Chair of the Electrical Engineering Department. His international experience includes research at UCLA, where he contributed to clean energy technologies. His work integrates academia and industry, focusing on sustainable optoelectronics, semiconductor materials, and advanced photonic systems. 💡🔍
Research Interests 🔬🌍
Prof. Ho’s research focuses on high-performance opto-electronic sensing devices for nano-electronic and medical applications. His expertise spans advanced photovoltaic materials, semiconductor technologies, and green energy innovations. He has led significant research on Cu-(In, Ga)-Se₂ (CIGSe) solar cells, pioneering eco-friendly advancements in renewable energy. His work on nano-photonic structures and flexible electronics contributes to sustainable technological solutions. ⚙️🔆
Awards and Achievements 🏆🎖️
Prof. Ho has received multiple accolades for his contributions to electrical engineering and green energy research. His patented innovations, including solar-powered image analysis systems, highlight his impact in sustainable technology. As a key member of international research collaborations, he has been recognized for his advancements in semiconductor devices and clean energy solutions. 🌟⚡
Publications 📄🔗
Micro-Size Layers Evaluation of CIGSe Solar Cells on Flexible Substrates by Two-Segment Process Improved for Overall Efficiencies – Molecules, 2025. 🔗
Enhancing Thickness Uniformity of Nb₂O₅/SiO₂ Multilayers Using Shadow Masks for Flexible Color-Filtering Applications – Micromachines, 2024. 🔗
Optoelectronic Effects of Copper-Indium-Gallium-Sulfur (CIGS₂)-Solar Cells Prepared by Three-Stage Co-Evaporation Process Technology – Micromachines, 2023. 🔗
Performance of High-Efficiency Avalanche Poly-SiGe Devices for Photo-Sensing Applications – Sensors, 2022. 🔗
Rear-Surface Line-Contact Optimization Using Screen-Print Techniques on Crystalline Solar Cells for Industrial Applications – Materials Science in Semiconductor Processing, 2018. 🔗
Improving the Performance of Solar Cells with Novel Buffer Structure by the Chemical Bath Deposition Technique – Materials Science in Semiconductor Processing, 2017. 🔗
Conclusion 🎯
Prof. Jyh-Jier Ho is a highly deserving candidate for the Best Researcher Award due to his outstanding contributions to optoelectronics, semiconductor devices, and green energy technologies. His prolific publication record, patented innovations, academic leadership, and sustainable research impact make him a leading figure in his field. Strengthening industrial applications, policy engagement, and international funding diversification could further enhance his research’s real-world impact. 🚀