Junchao Zhao | Engineering and Technology | Best Researcher Award
Dr Junchao Zhao, University of Science and Technology of China, China
Dr. Junchao Zhao π is an outstanding fire safety researcher specializing in lithium-ion battery fire suppression and ultra-fine dry powder extinguishing agents π₯π§―. He earned his Ph.D. in Safety Science and Engineering from the University of Science and Technology of China (USTC) ποΈ, where he now serves as a postdoctoral fellow at the State Key Laboratory of Fire Science. Guided by leading experts such as Prof. Heping Zhang and Prof. Xisheng Luo π¨βπ¬, Dr. Zhao has led and contributed to numerous national research projects. His innovative work focuses on fire dynamics, suppression technology, and energy storage safety, addressing urgent issues in aviation and electric vehicle fires βοΈπ. With a rich portfolio of high-impact publications π, prestigious awards π, and collaborative projects, Dr. Zhaoβs scientific excellence and dedication to fire protection science continue to influence safety engineering globally π.
Publication Profile
Education
Dr. Junchao Zhao embarked on his academic journey in Safety Engineering at Henan University of Science and Technology (2013β2017) π. Graduating with honors, he proceeded to pursue a Ph.D. in Safety Science and Engineering at the University of Science and Technology of China (USTC) from 2017 to 2022 ποΈ. There, he conducted cutting-edge research at the prestigious State Key Laboratory of Fire Science π¬. Under the mentorship of Prof. Heping Zhang π¨βπ«, he focused on novel fire suppression technologies, specifically targeting lithium-ion battery fires and ultra-fine dry powder extinguishing agents π₯π§―. His academic path has been marked by consistent excellence, demonstrated by numerous national-level scholarships and distinctions π. Dr. Zhaoβs rigorous training and specialization in fire safety have built the foundation for his current postdoctoral research, allowing him to contribute significantly to national R&D initiatives and scientific innovation in fire science and engineering.
Research & Academic Experience
Since July 2022, Dr. Junchao Zhao has been serving as a Postdoctoral Fellow at the State Key Laboratory of Fire Science, USTC π’. Under the co-supervision of Prof. Xisheng Luo and Prof. Heping Zhang, he leads pioneering research on extinguishing technologies for high-risk environments like aircraft power cabins βοΈπ₯. His experience spans key national R&D programs, the China Postdoctoral Science Foundation, and projects funded by the National Natural Science Foundation of China π°π. As both principal investigator and research backbone, he has significantly contributed to the development of fire extinguishing mechanisms involving lithium-ion batteries π, energy storage systems, and advanced suppression agents. His academic journey includes collaborations with firefighting institutions, cross-disciplinary innovation, and application-based safety engineering solutions. Dr. Zhaoβs hands-on research experience, project leadership, and commitment to safety science make him a vital contributor to fire protection technology and its real-world applications ππ.
Honors & Scholarships
Dr. Zhaoβs academic excellence has been recognized through numerous prestigious honors π. He was awarded the Graduate National Scholarship (Top 2%) in 2019 π₯, and received the National Scholarship (Top 0.3%) in 2015. During his studies at USTC, he earned the School Specialty First-Grade Scholarship for three consecutive years (2017β2019) π . His leadership skills were acknowledged with the Outstanding Student Cadre Award (2018) and Excellent Volunteer Award (2017) π. At Henan University, he received the Excellent Graduate of Henan Province (Top 2%) in 2017 and the National Encouragement Scholarship twice π§ β¨. Further, his active involvement in student governance earned him the Student Union Work Excellence Award and Social Work Excellence Award ποΈ. These accolades reflect his unwavering commitment to academic, research, and social excellence β qualities that firmly establish him as a top candidate for the Best Researcher Award ππ¬.
Research Focus
Dr. Zhaoβs research focuses on fire safety science, with emphasis on lithium-ion battery thermal runaway, ultrafine dry powder extinguishing agents, and novel suppression technologies π₯π§―π. He investigates extinguishing dynamics in confined and ventilated conditions, particularly in aircraft power cabins and energy storage systems βοΈβ‘. His projects explore the design, flow behavior, and minimum extinguishing concentration of advanced agents like KHCOβ and NaHCOβ. He also studies gas-solid transport and full-flooding spray systems for high-risk applications π¨π. By integrating material science with fire suppression mechanisms, his work bridges the gap between theory and application, offering real-world safety solutions. Dr. Zhaoβs interdisciplinary approach enhances fire protection strategies in aerospace, electric vehicle, and battery storage sectors ππ. Through national-level collaborations, cutting-edge experiments, and impactful publications, he contributes significantly to the safety and sustainability of next-generation energy technologies π±π§ͺ.
Publication Top Notes
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π₯ Insights into the particle diameter and base chosen for dry powder fire extinguishing agents β Fire and Materials, 2023
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π§― An improved method to determine minimum extinguishing concentrations of ultrafine dry powder agents β Process Safety and Environmental Protection, 2023
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π Comparative study on thermal runaway inhibition of lithium-ion batteries by different extinguishing agents β iScience, 2021
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π₯ Experimental study on thermal runaway of 18650 Li-ion battery under enclosed and ventilated conditions β Fire Safety Journal, 2021
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βοΈ Application of ultrafine dry chemicals modified by POTS/OBS for suppressing aviation kerosene pool fire β Fire Safety Journal, 2020
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π Superhydrophobic and oleophobic ultra-fine dry chemical agent with extended fire-protection β Journal of Hazardous Materials, 2019
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π§ Experimental study on extinguishing lithium battery box fire using low-pressure water mist system β Journal of Safety and Environment, 2021
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π§ͺ Study on Flowability Enhancement and Performance Testing of Ultrafine Dry Powder Fire Extinguishing Agents β Fire, 2024
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βοΈ Pyrolysis of a perfluoro copolymer and its HF contribution β Polymer Degradation and Stability, 2020
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π§ Preparation of hydrophobic/oleophobic fine NaHCOβ and enhanced fire performance β Materials & Design, 2020