Academician/Research Scholar at Southwest University of Science and Technology, China
Yawen Huang is a distinguished professor and doctoral supervisor at the State Key Laboratory of Environment-friendly Energy Materials, Southwest University of Science and Technology. With a strong background in polymer science and materials engineering, she has made significant contributions to the development of self-healing polymer materials, low-dielectric resins, and anti-icing coatings. Her research integrates fundamental material design with real-world applications, addressing challenges in durability, environmental adaptability, and energy efficiency. As an active scholar, she has authored numerous high-impact journal articles and leads cutting-edge research projects focused on sustainable material innovation. In addition to her academic contributions, she plays a crucial role in mentoring young scientists and fostering interdisciplinary collaboration. Her work has gained international recognition, making her a key figure in advancing functional polymer materials.
Professional Profile
Education
Yawen Huang earned her doctoral degree in materials science and engineering from a prestigious institution, where she specialized in polymer chemistry and composite materials. Her early academic journey was marked by a deep interest in developing advanced functional materials with tailored properties for industrial and environmental applications. She pursued her undergraduate and master’s degrees in related fields, equipping herself with expertise in polymer synthesis, processing, and characterization techniques. During her Ph.D. research, she focused on dynamic-bond-based polymer networks, laying the foundation for her later breakthroughs in self-healing and anti-corrosion materials. She has also engaged in postdoctoral research at leading institutes, where she expanded her knowledge in nanomaterials and smart coatings. Her diverse educational background and rigorous scientific training have enabled her to pioneer novel material systems with high mechanical strength, self-repairing capabilities, and environmental resilience.
Professional Experience
Yawen Huang currently serves as a professor at Southwest University of Science and Technology, where she is also a doctoral supervisor at the State Key Laboratory of Environment-friendly Energy Materials. Over the years, she has led several research initiatives focused on designing high-performance polymeric materials for industrial and environmental applications. Her professional journey includes collaborations with leading national and international research institutions, where she has contributed to major projects in advanced material development. She has also held visiting scholar positions at renowned universities, strengthening her global research connections. Besides her academic roles, she actively participates in editorial boards and peer-review panels for high-impact scientific journals. Through her leadership, she has fostered interdisciplinary partnerships, bridging the gap between fundamental research and real-world material applications. Her dedication to innovation and mentorship has positioned her as a key influencer in the field of functional polymer materials.
Research Interests
Yawen Huang’s research focuses on the development of self-healing polymers, low-dielectric materials, and anti-icing coatings, with applications in energy, aerospace, and environmental sustainability. She has pioneered the design of smart coatings with self-repairing and superhydrophobic properties, which enhance durability and efficiency in extreme conditions. Her work also explores dynamic-bond-based polymer materials that exhibit superior mechanical strength, impact resistance, and recyclability. Additionally, she has developed novel gas-liquid reaction strategies for fabricating nanomaterials used in water purification and adsorption processes. Her research integrates fundamental polymer chemistry with practical applications, addressing key challenges in corrosion protection, thermal stability, and material sustainability. By combining experimental techniques with computational modeling, she continues to push the boundaries of functional material design. Her interdisciplinary approach has broad implications for industries seeking high-performance, eco-friendly material solutions.
Awards and Honors
Yawen Huang has received several prestigious awards and honors in recognition of her groundbreaking contributions to material science. She has been honored with national and international research excellence awards for her innovative work in self-healing polymers and low-dielectric materials. Her publications in top-tier journals have earned her accolades for scientific impact, and she has been invited as a keynote speaker at major conferences on polymer chemistry and sustainable materials. She has also secured competitive research grants from government agencies and industry partners, further validating the significance of her work. In addition to individual achievements, her research team has been recognized for pioneering advancements in smart coatings and recyclable polymer systems. Her dedication to scientific excellence and innovation continues to position her as a leading researcher in functional materials.
Conclusion
Yawen Huang is a strong contender for the Best Research Article Award, given their innovative contributions to self-healing and low-dielectric materials, high-quality journal publications, and leadership in research. However, assessing real-world impact, citation metrics, and interdisciplinary collaborations could further reinforce their candidacy. If the award prioritizes fundamental material science breakthroughs with strong potential for application, Huang’s research is highly deserving of recognition.
Publications Top Noted
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Deng, Li et al., 2025, 0 citations
“Cellulose-Based Transparent Superhydrophobic Coatings With a Four-Layer ‘Armor’ Structure for Anti-Fouling and Anti-Icing Applications”
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Zhang, Weiliang et al., 2024, 0 citations
“Preparation and properties of wear-resistant superhydrophobic coatings based on SiO2/aramid nanofibers ‘grape’ structure”
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Xiong, Yang et al., 2024, 1 citation
“Loading of aerogels in self-healable polyurea foam to prepare superhydrophobic tough coating with ultra-long freezing delay time and high durability”
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Xiong, Yang et al., 2024, 0 citations
“Preparation of superhydrophobic asymmetric vitrimer coating with high porosity and the key role of hierarchical pocket structure on long freeze delay time and high durability”
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Zhang, Zihong et al., 2024, 0 citations
“Ultralong-Term Durable Anticorrosive Coatings by Integration of Double-Layered Transfer Self-Healing Ability, Fe Ion-Responsive Ability, and Active/Passive Functional Partitioning”
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Liu, Ying et al., 2023, 16 citations
“Functional partition strategy in assistance by shear thinning/self-healing effect to prepare durable anti-corrosion coating”
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Xiong, Yang et al., 2023, 3 citations
“Hot-Pressing/Salt-Leaching Method Assisted by Boronic Ester Dynamic Bond to Prepare Vitrimer Foams with Ultra-Low Relative Permittivity and Superhydrophobic Performance”
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Liang, Hengfei et al., 2023, 4 citations
“Self-healable and transparent PDMS-g-poly(fluorinated acrylate) coating with ultra-low ice adhesion strength for anti-icing applications”
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Huang, Yuanliang et al., 2022, 3 citations
“Gas-Liquid Reactions to Synthesize Positively Charged Fe3O4 Nanoparticles on Polyurethane Sponge for Stable and Recyclable Adsorbents for the Removal of Phosphate from Water”
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Liang, Hengfei et al., 2022, 1 citation
“Correction: Construction of durable superhydrophobic and anti-icing coatings via incorporating boroxine cross-linked silicone elastomers with good self-healability”