Prof Dr. Myeong Hoon Lee | Surface Electrochemistry | Best Researcher Award 

Korea Maritime and Ocean University | South Korea 

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Prof. Dr. Myeong Hoon Lee's academic journey began at Korea Maritime University, where he earned his Bachelor of Engineering degree in 1983. He further pursued his Master's degree at the same institution, specializing in marine engineering. His master's thesis, titled "A Study on the Optimum Cathodic Protection Potentials of Carbon Steels and Stainless Steels in Seawater by their Polarization Resistances," laid the foundation for his future research interests in surface electrochemistry and corrosion control. Dr. Lee then moved to Nagoya University in Japan, where he completed his Doctor of Engineering in 1994 with a dissertation focused on the "Formation Mechanism and Evaluation of Metal Film PVD Process." This advanced study solidified his expertise in surface electrochemistry and coating technologies.

PROFESSIONAL ENDEAVORS

Dr. Lee has had a distinguished career in both academia and industry. After serving as a Lieutenant Junior Grade and R.O.T.C. Instructor at Korea Maritime University, he transitioned to a role as an Assistant Instructor in the Department of Marine Engineering. His professional endeavors expanded internationally when he joined Bureau Veritas as a Surveyor and Coating Inspector, where he gained valuable industry experience. In 1995, Dr. Lee began his long tenure as a Professor in the Department of Marine System Engineering at Korea Maritime & Ocean University. He has held numerous prestigious positions, including Research Professor at the University of Washington and Invited Professor at Nagoya University. His leadership roles have included serving as the President of the Korea Institute of Surface Engineering and Chairing the International Conference of Surface Engineering (ICSE). In 2024, Dr. Lee was appointed Chair Professor at Korea Maritime & Ocean University and Director of the Korea Institute of Corrosion Science & Technology (KICST).

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Lee's research has primarily focused on surface electrochemistry, with particular emphasis on surface coating and corrosion control engineering. His work explores the formation mechanisms and corrosion resistance of films produced by various coating processes, including both dry (plasma) and wet (plating) techniques. Dr. Lee has made significant contributions to the understanding of surface coating films formed by electro-deposition in seawater environments, as well as the corrosion control of materials through cathodic protection and protective coatings. His research has led to advancements in the field of surface electrochemistry, particularly in the development of more durable and effective coatings for marine environments.

IMPACT AND INFLUENCE

Dr. Lee's impact on the field of surface electrochemistry and corrosion control is profound. His research has been widely cited and has influenced both academic and industrial practices. As a Research Advisor to major companies like POSCO Steel Co. and LG Electro Co., Dr. Lee has applied his expertise to solve real-world problems in the industry, further solidifying his influence in the field. His role as a mentor to graduate students and his leadership in various professional organizations have also contributed to his lasting impact on the field.

ACADEMIC CITATIONS

Dr. Lee's extensive body of work in surface electrochemistry has garnered significant academic recognition, with his research papers being cited extensively by peers in the field. His contributions to understanding the corrosion resistance of materials and the mechanisms of film formation have provided valuable insights that continue to be referenced in ongoing research.

LEGACY AND FUTURE CONTRIBUTIONS

As Chair Professor at Korea Maritime & Ocean University and Director of KICST, Dr. Lee's legacy is marked by his dedication to advancing the field of surface electrochemistry and corrosion science. His future contributions are expected to continue influencing both academic research and industrial applications. Dr. Lee's work will likely play a crucial role in the development of new materials and technologies that address the challenges of corrosion and surface engineering in marine environments.

SURFACE ELECTROCHEMISTRY MECHANICS 

Throughout his career, Dr. Lee has consistently focused on surface electrochemistry mechanics, integrating these principles into his research on corrosion control and surface coating technologies. His work on surface electrochemistry mechanics has advanced the understanding of how materials interact with their environments, particularly in challenging conditions like seawater. Dr. Lee's research continues to push the boundaries of what is possible in surface electrochemistry mechanics, contributing to the development of more robust and effective engineering solutions.

NOTABLE PUBLICATION

• Influence of Heat Treatment on Corrosion Resistance of Sn/Mg Films Formed by PVD Method on Hot-Dip Galvanized Steel

  Citation: 03      Year: 2023

• Effect of Zn-Mg interlayer on the corrosion resistance of multilayer Zn-based coating fabricated by physical vapor deposition process

  Citation: 20      Year: 2022

• Design of Robust Lubricant-Infused Surfaces for Anti-Corrosion

  Citation: 12      Year: 2022

• Enhanced decomposition of caffeine by water plasma combined with mist generator: Effect of operational parameter and decomposition pathway

  Citation: 05      Year: 2022

• Decomposition of N, N-diethyl-m-toluamide by water plasma with mist generation

  Citation: 03      Year: 2022

• Ultra-high corrosion resistance of Al-Mg-Si film on steel sheet formed by PVD Mg coating and heat treatment

  Citation: 14      Year: 2021