Nanjing Institute of Technology | China
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Early Academic Pursuits
Dr. Jie Wang began his academic journey in Materials Science and Engineering. His early academic pursuits laid the foundation for his future research endeavors, providing him with a strong background in the field.
Professional Endeavors
Currently serving at the Nanjing Institute of Technology, Dr. Jie Wang has established himself as a prominent figure in materials research. Through his professional endeavors, he has contributed significantly to the advancement of knowledge in his field.
Contributions and Research Focus
Dr. Jie Wang's research primarily focuses on the interdependence of surface roughness on icephobic performance, exploring the effect of different interface conditions on energy absorption characteristics, and investigating microporous metallic scaffolds supported liquid-infused icephobic construction. His work extends to studying surface topography's influence on icephobic behavior and preparing glass fiber reinforced 3D fabric reinforced epoxy foam sandwich composites.
Accolades and Recognition
Dr. Jie Wang's contributions to materials science have been recognized through his published articles and research findings. His work has garnered attention within the academic community, earning him accolades and recognition for his significant contributions to the field.
Impact and Influence
Through his research, Dr. Jie Wang has made a substantial impact on the understanding of surface properties and their applications in icephobic behavior. His findings have practical implications in various industries, including aerospace, transportation, and infrastructure, where icephobic materials are crucial for safety and efficiency.
Legacy and Future Contributions
Dr. Jie Wang's legacy lies in his pioneering research in materials science, particularly in the field of icephobic behavior and surface properties. His ongoing contributions promise to further advance our understanding of these areas, leading to the development of innovative materials and technologies with diverse applications in real-world scenarios.
Notable Publications
Study on durable icephobic surfaces modified with phase change oil impregnation 2024
The effect of different interface conditions on the energy absorption characteristics of Al/CFPP hybrid tube 2023 (1)
Microporous metallic scaffolds supported liquid infused icephobic construction 2023 (4)
Study on the influencing factors of spontaneous wettability transition behaviour on metallic-based surfaces 2022 (6)
Metallic skeleton promoted two-phase durable icephobic layers 2021 (14)