Phd Student, School of Electrical and Electronic Engineering, Harbin University of Science and Technology, China
Dongyu Hou is a dedicated and emerging researcher currently pursuing his Ph.D. in Electrical Engineering at the School of Electrical and Electronic Engineering, Harbin University of Science and Technology. With a strong academic background in materials and chemical engineering, Dongyu has focused his research on high-performance materials for energy storage and thermal insulation applications. His work emphasizes the integration of low-temperature plasma technology with advanced material systems for electric vehicles and electronic components. He has contributed to a significant research publication in the Journal of Energy Storage (2025), co-authored a pending Chinese invention patent, and received the Outstanding Graduate Award of Yunnan Province, establishing himself as a young leader in materials science and electrical engineering.
Profile
Scopus
🎓 Education
Dongyu holds a master’s degree in Materials and Chemical Engineering from Kunming University of Science and Technology 🎓. During his graduate studies, he developed a plasma-assisted process for regenerating lithium-ion battery cathode materials, which significantly reduced processing time and improved material performance. He is currently pursuing a Ph.D. in Electrical Engineering at Harbin University of Science and Technology 📘. His doctoral work focuses on the development of high thermal conductivity insulating materials, particularly for use in electric vehicle motors, aiming to address challenges in heat management and energy efficiency within compact power systems.
🧪 Experience
Throughout his academic journey, Dongyu has worked on a wide range of interdisciplinary research projects at the intersection of chemical engineering, plasma physics, and electrical materials. Under the mentorship of Professor Chengxu Zhang (2021–2024) and Professor Yu Feng (from 2024), Dongyu has sharpened his theoretical and experimental skills. He has explored material design strategies such as polymer blending, plasma surface modification, and composite optimization. Dongyu’s approach combines innovative engineering solutions with sustainable practices, focusing on scalable technologies for the energy sector ⚙️.
🔍 Research Interests
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Low-temperature plasma applications for material modification
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Recycling technologies for lithium-ion batteries
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Dielectric energy storage materials for high-temperature use
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High thermal conductivity composites for electrical insulation
Currently, he is investigating ways to enhance the thermal conductivity and dielectric efficiency of polymers through advanced filler design and multilayer architectures. His long-term goal is to contribute to the development of sustainable, high-performance materials for the energy storage and automotive industries 🔋🚗.
📄 Selected Publication
“Improvement of high-temperature energy storage performance of PC/FPE all-organic composite dielectrics based on functional multilayer structure design”, Journal of Energy Storage, 2025.
Authors: Wenchao Zhang, Qingguo Chen, Yu Feng, Dongyu Hou et al.
This study introduces a novel multilayer structure combining polycarbonate (PC) and fluorinated polyether (FPE) to improve dielectric performance under high-temperature conditions. The research proposes a functional layering method that enhances energy storage density and breakdown strength while maintaining thermal stability. Dongyu contributed significantly to the experimental methodology and thermal conductivity analysis. This paper marks a notable advancement in the development of polymer-based energy storage systems that are both efficient and thermally resilient. The publication has already begun to attract scholarly attention and is expected to be widely cited due to its relevance to next-generation electronic and automotive systems 🔬📈.
🏁 Conclusion
Dongyu Hou is a promising early-career researcher who demonstrates a rare combination of academic rigor, innovative thinking, and commitment to sustainable engineering. His current Ph.D. research on high-performance insulating materials is aligned with pressing technological challenges in electric vehicle systems and power electronics. His co-authored 2025 publication in the Journal of Energy Storage represents a significant scientific contribution and reflects his ability to collaborate effectively on interdisciplinary projects. With a patent application under review and membership in esteemed professional organizations such as the IEEE and the Plasma and their Applications Committee, Dongyu remains actively engaged with the scientific community. His achievements so far, combined with his strong potential for future impact, make him a worthy candidate for the Best Researcher Award 🏅.