Prof Dr. Huang Zan | Materials Chemistry | Best Scholar Award
Guangzhou Maritime University, China
๐จโ๐Profiles
๐ Early Academic Pursuits
Prof Dr. Huang Zan began his academic journey in the fields of robotics engineering and mechanical engineering, with a focus on advancing artificial intelligence, intelligent manufacturing, and materials science. His early endeavors laid the foundation for his contributions to both education and innovative research in these high-tech industries. His role as an Associate Professor in the School of Intelligent Manufacturing and his involvement in cutting-edge research shaped the trajectory of his academic career.
๐ผ Professional Endeavors
As the Deputy Dean of Guangzhou Maritime University, He plays a crucial leadership role, overseeing research projects, managing academic programs, and shaping the university's direction in technological advancements. He is also the Deputy Secretary-General of the International Industrial Technology Innovation Alliance for Artificial Intelligence and Digital Manufacturing. His involvement in these national and international collaborations reflects his commitment to bridging academia and industry.
๐ฌ Contributions and Research Focus
His research spans a variety of crucial fields including electrochemistry, robotics, artificial intelligence, and materials science. His work on lithium-sodium batteries and the integration of underwater robots into information-physical systems highlights his focus on innovative, sustainable technologies. He has presided over and contributed to numerous high-impact projects, earning him recognition as a leader in his fields.
๐ Impact and Influence
With a citation index that includes eight highly cited papers and over 600 citations, His research has significantly influenced advancements in robotics and materials science. His contributions have been widely recognized in the scientific community, making him a key player in international collaborations and technology alliances. His impact extends beyond research as he actively contributes to professional societies, offering expertise as a project reviewer and judge for various competitions.
๐ Academic Cites
His research has earned notable academic recognition with five hot papers and three JCR 1 district publications. The total number of citations for his work exceeds 600, solidifying his position as a respected academic. Additionally, his role as a reviewer for top SCI journals such as ACS Nano and Journal of Clinical Nephrology has further amplified his academic presence.
๐ ๏ธ Technical Skills
He possesses specialized technical skills in robotics engineering, intelligent manufacturing, and electrochemical technologies. His expertise also extends to the design and development of novel materials, including electrode materials for batteries and advanced composite materials for various applications. His ability to combine theoretical knowledge with practical industry applications has made his research highly valuable.
๐จโ๐ซ Teaching Experience
Throughout his career, He has mentored and guided students, fostering innovation and critical thinking in the fields of robotics, materials science, and manufacturing. His students have excelled, winning 15 competitions, which highlights his effectiveness as an educator and a researcher.
๐ฑ Legacy and Future Contributions
His legacy is reflected in his extensive portfolio of patents, research papers, and the numerous projects he has led. As he continues to innovate and educate, his work will undoubtedly inspire future generations of engineers and researchers. His ongoing projects, particularly in the integration of AI into manufacturing and the development of sustainable energy solutions, promise to contribute significantly to both academic and industrial advancements in the years to come.
๐Notable Publications
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Cellulose-reinforced foam-based phase change composites for multi-source driven energy storage and EMI shielding
- Authors: Yan, R., Huang, Z., Zhang, L., Chen, Y., Sheng, X.
Journal: Composites Communications
Year: 2024 -
Design and fabrication of nitrogen-doped graphene-promoted Na3MnTi(PO4)3@C cathode with three-electron reactions for sodium-ion storage
- Authors: Luo, P., Huang, Z., Wang, T., Yan, R., Zhao, G.
Journal: Solid State Sciences
Year: 2024 -
Phase change composite based on lignin carbon aerogel/nickel foam dual-network for multisource energy harvesting and superb EMI shielding
- Authors: Yan, R., Huang, Z., Chen, Y., Zhang, L., Sheng, X.
Journal: International Journal of Biological Macromolecules
Year: 2024 -
In-situ fabrication of a novel CNTs-promoted Na3MnTi(PO4)3@C electrode in high-property sodium-ion storage
- Authors: Luo, P., Huang, Z., Lyu, Z., Ma, X.
Journal: Journal of Physics and Chemistry of Solids
Year: 2024 -
Effects of MethanolโAmmonia Blending Ratio on Performance and Emission Characteristics of a Compression Ignition Engine
- Authors: Huang, Z., Lyu, Z., Luo, P., Chen, A., Xiao, H.
Journal: Journal of Marine Science and Engineering
Year: 2023