Prof. Shu Mei Kang | Surface Chemistry | Material Chemistry Award

Prof. Shu Mei Kang , Surface Chemistry , Professor at University of Science and Technology Liaoning, China

Prof. Kang Shumei is a distinguished professor at the School of Materials and Metallurgy, University of Science and Technology Liaoning. With deep expertise in green intelligent coatings, she has significantly contributed to the fields of self-healing coating and super hydrophobic protective materials. Her interdisciplinary work bridges corrosion science, nanomaterials, and surface engineering, aimed at enhancing durability and eco-efficiency in harsh environments. Over the years, she has led numerous research projects and published prolifically in top-tier journals. In addition to her academic pursuits, Prof. Kang holds several patents that underscore her innovation in industrial metallurgy and protective technologies. She is a respected voice in materials science and is regularly invited to share her expertise at national and international platforms. Her contributions continue to drive sustainable solutions in industrial material protection and coating engineering, establishing her as a leader in environmentally friendly advanced materials.

Professional Profile :

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Summary of Suitability for Award:

Prof. Kang Shumei is exceptionally well-suited for the “Material Chemistry Award” owing to her pioneering contributions to the field of nanostructured coatings and smart materials. Her research spans critical areas of green intelligent self-healing coatings and superhydrophobic anti-pollution materials, both of which are cutting-edge domains within material chemistry. She has published extensively in reputed journals such as ACS Omega, Ceramics International, and Diamond and Related Materials, demonstrating her scientific impact and innovation. Furthermore, her patented technologies—including corrosion-simulation devices and eco-friendly coating formulations—highlight her capacity to translate theoretical research into industrial solutions. Her interdisciplinary approach blends materials science, nanotechnology, chemistry, and engineering, reflecting the spirit of modern material chemistry. Her work contributes significantly to sustainable materials, smart surfaces, and corrosion-resistant systems. Prof. Kang Shumei is highly suitable for the “Material Chemistry Award”. Her impactful research, industrial patents, and leadership in green and intelligent coatings align directly with the award’s focus on innovation, applicability, and advancement in material chemistry. Her portfolio represents the forefront of sustainable and functional materials science.

🎓Education:

Prof. Kang Shumei completed her undergraduate studies in Materials Science and Engineering, laying the foundation for her specialized work in protective coatings. She pursued her Master’s degree with a focus on corrosion resistance and high-temperature metallurgy, gaining comprehensive technical insights into the challenges faced by industrial materials. Her academic journey culminated with a Ph.D. in Materials Science, where she explored advanced coatings and smart surface technologies for anti-corrosion and self-repair mechanisms. Throughout her education, she received several academic distinctions and actively participated in cross-disciplinary research initiatives. Her commitment to academic excellence is reflected in her seamless integration of theoretical research with practical applications, particularly in the development of next-generation coatings for structural materials. Prof. Kang’s rigorous academic training has fueled her innovative outlook in green materials, enabling her to design sustainable and high-performance coatings suitable for diverse industrial sectors.

🏢Work Experience:

Prof. Kang Shumei brings a wealth of academic and research experience from her longstanding tenure at the University of Science and Technology Liaoning. Currently a full professor in the School of Materials and Metallurgy, she has led several national-level research projects focused on intelligent coating materials and green technologies. Her industrial collaborations and applied research have led to the development of patented innovations in super hydrophobic, anti-pollution, and self-healing coatings. Prof. Kang has mentored graduate students and researchers, many of whom now hold positions in academia and industry. Her role also includes curriculum development, laboratory modernization, and fostering interdisciplinary programs. A recognized academic authority, she frequently serves as a reviewer for prestigious journals and a technical advisor on corrosion protection. Her experience extends to international research exchanges and joint ventures that aim to commercialize smart coating systems for industrial use in marine, automotive, and energy sectors.

🏅Awards:

Prof. Kang Shumei has received numerous accolades in recognition of her research excellence and technological innovation. She is the recipient of several prestigious invention patents, including a device for continuous casting steel leakage control (2017), a nitrogen-reducing method for high-titanium steel (2022), and an eco-friendly superhydrophobic, anti-biofouling self-healing coating (2023). In 2025, she patented an experimental corrosion simulation device for marine environments. These awards underscore her pioneering work in corrosion protection and green materials. She has been acknowledged by the Chinese academic community and material engineering institutions for her outstanding contributions to industrial applications and sustainability. Additionally, she has been invited to deliver keynote lectures at major conferences and serves on editorial boards of leading journals in materials science. Her innovative research continues to influence emerging technologies and has made her a sought-after collaborator in both academic and industrial research environments.

🔬Research Focus:

Prof. Kang Shumei’s research focuses on green intelligent self-healing coatings and superhydrophobic anti-pollution materials, aiming to improve the durability and performance of industrial surfaces under extreme conditions. Her work revolves around designing environmentally friendly coatings that can autonomously repair micro-damage, resist corrosion, and repel contaminants like water, oil, and pollutants. These advanced coatings integrate nanotechnology, functional microcapsules, and surface chemistry to deliver long-term protection with minimal maintenance. She is particularly known for her innovations in epoxy-based self-healing systems, DLC films, and siloxane-modified carbon nanotube composites, which find applications in marine engineering, steel processing, and electronics. Her team also studies corrosion mechanisms at the micro-level to tailor coatings that respond to specific environmental triggers. By combining experimental research with simulation and modeling, Prof. Kang contributes to the development of intelligent surface systems aligned with green and sustainable engineering practices.

Publication Top Notes:

1. Oxidation behaviors of electrodeposited MoSi₂ coating in a wide temperature range from 773 K to 1673 K

Citations: 4

2. Structure and properties of Si and N co-doping on DLC film corrosion resistance

3. Interfacial polymerisation of polyaniline/Fe(OH)₃/graphene nanocomposites and its energy storage properties

Dr. Shu Tian, Ningbo Institute of Materials Technology & Engineering, CAS , China

Shu Tian is an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, CAS. he holds a strong background in materials science and engineering, having earned his bachelor’s degree from Northeastern University and completed a joint master’s program between Shanghai University and Ningbo Institute. His Ph.D. in Chemical Engineering was awarded by Tianjin University. Dr. Tian’s research focuses on developing environmentally friendly, long-lasting antifouling materials, with a particular interest in organic and functional coatings. he has contributed to various advanced protective coatings and collaborates with several prestigious research institutions. Dr. Tian has published numerous research papers and holds multiple patents for his innovations in surface chemistry and materials science.

Summary of Suitability for Award:

Dr. Shu Tian is highly suitable for the “Best Researcher Award” based on his extensive contributions to the field of materials science, particularly in the area of antifouling and functional coatings. his innovative approach to designing environmentally friendly, long-lasting coatings that address significant challenges such as marine biofouling, corrosion, and surface icing highlights his leadership in research. Dr. Tian has successfully led two major research projects and contributed to over 10 others, demonstrating her ability to drive impactful, collaborative scientific advancements.

🎓Education:

Shu Tian’s academic journey began with a Bachelor’s degree from the School of Materials Science and Engineering at Northeastern University. he continued his studies as a joint graduate student between Shanghai University and Ningbo Institute of Materials Technology and Engineering, CAS, where he completed his Master’s degree. Dr. Tian then pursued a Ph.D. at the School of Chemical Engineering, Tianjin University, focusing on advanced materials and coatings. He is strong educational foundation has propelled his into his current position as an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, where he continues to expand his expertise in surface chemistry and material science.

🏢Work Experience:

Dr. Shu Tian’s professional experience includes serving as an Assistant Professor at Ningbo Institute of Materials Technology & Engineering, CAS, since September 2023. Prior to this, he was involved in advanced research during his doctoral studies and contributed to various research projects on functional organic coatings. As the leader of two projects and a key member of over ten others, Dr. Tian has honed his skills in materials development, particularly in antifouling and protective coatings. he has also collaborated with top research institutes like Zhejiang University of Technology, Luoyang Ship Material Research Institute, and Soochow University. his research experience spans marine biofouling, corrosion, and surface icing prevention.

🏅Awards:

Dr. Shu Tian has received several recognitions for his innovative contributions to the field of materials science, particularly for his work on antifouling and functional coatings. While specific awards and honors were not listed, his recognition is evident in the numerous citations and patents he has achieved. his research has garnered attention in several international academic and scientific communities. his work continues to advance the field, earning his respect and acknowledgment from peers and industry leaders. The publication of his research and successful patent filings further demonstrate his commitment to innovation in the material sciences.

🔬Research Focus:

Dr. Shu Tian’s research is centered on the development of environmentally friendly and durable antifouling materials. his work explores surface chemistry and functional coatings, including bio-based antibacterial coatings, integrated anticorrosion and antifouling coatings, and biomimetic anti-icing coatings. he investigates ways to improve the longevity and performance of materials in harsh environments, focusing on the prevention of biofouling, corrosion, and surface icing in marine applications. Dr. Tian’s contributions are key to addressing challenges in protective coatings, with a focus on sustainability, material innovation, and the development of smart coatings with multi-functional properties.

Publication Top Notes:

A new hybrid silicone-based antifouling coating with nanocomposite hydrogel for durable antifouling properties
Citations: 110

Pro-healing zwitterionic skin sensor enables multi-indicator distinction and continuous real-time monitoring
Citations: 99

Fabrication of bio-based amphiphilic hydrogel coating with excellent antifouling and mechanical properties
Citations: 73

Amphiphilic marine antifouling coatings based on a hydrophilic polyvinylpyrrolidone and hydrophobic fluorine–silicon-containing block copolymer
Citations: 61