Assoc. Prof. Dr. Xiang Fei, Donghua University, China
Dr. Xiang Fei is an Associate Professor at Donghua University, China, specializing in polymer materials and nanofibers. With a Ph.D. in Polymer Chemistry from Fudan University π, he has conducted postdoctoral research in Switzerland π¨π and Singapore πΈπ¬. His work focuses on nanofibers, biomaterials, and functional textiles π§΅. He has led multiple national R&D projects and published in high-impact journals π. Recognized as a top talent in China π¨π³, Dr. Fei has received numerous prestigious awards π
for his contributions to materials science and engineering.
Professional Profile:
Scopus
Suitability of Dr. Xiang Fei for the Best Researcher Award
Dr. Xiang Fei is an outstanding researcher specializing in polymer materials and nanofibers, with significant contributions to biomaterials, functional textiles, and sustainable materials. His interdisciplinary expertise spans polymer chemistry, material science, and biomedical applications, making a profound impact on medical, industrial, and environmental advancements. With postdoctoral research in Switzerland and Singapore, over 50 high-impact publications, and leadership in national R&D projects, Dr. Fei has established himself as a leader in the field. His numerous prestigious awards, including the Shanghai Top-Young Talents Award, further highlight his excellence in research and innovation.
Education & Experience ππ§ͺ
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π Ph.D. in Polymer Chemistry & Physics, Fudan University (2010-2013)
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π M.Sc. in Applied Chemistry, Xinjiang University (2007-2010)
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π B.Sc. in Polymer Science & Engineering, Xinjiang University (2003-2007)
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π¨βπ« Associate Professor, Donghua University, China (2018-Present)
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π¬ Research Fellow, National University of Singapore (2016-2018)
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π§ͺ Postdoctoral Fellow, University of Zurich, Switzerland (2013-2016)
Professional Development & Contributions ππ¬
Dr. Xiang Fei has significantly contributed to polymer chemistry, biomaterials, and smart textiles π§΅. As an Associate Professor, he leads innovative research on nanofiber-based materials for biomedical and industrial applications π₯. His work in functional textiles and wound-healing materials has earned global recognition π. With over 50 publications in prestigious journals π, he actively collaborates with top scientists worldwide. Dr. Fei also leads national R&D projects, driving advancements in polymer hybrid fibers and bioactive materials π§¬. His expertise in material engineering bridges academia and industry, fostering innovation in high-performance fabrics and biomedical textiles βοΈ.
Research Focus π¬π
Dr. Xiang Fei specializes in advanced polymer materials and nanofibers for biomedical and functional applications π§ͺ. His work explores:
- π₯ Biomedical Nanofibers: Developing wound healing and tissue engineering scaffolds.
- β‘ Conductive Polymer Fibers: Creating materials for electronic textiles and sensors.
- 𧡠Smart Textiles: Designing thermotherapy and electromagnetic shielding fabrics.
- π± Sustainable Materials: Innovating eco-friendly fiber depolymerization methods.
His interdisciplinary research integrates chemistry, physics, and materials science to revolutionize medical and industrial applications.
Awards & Honors π
ποΈ
- π Shanghai Top-Young Talents Award (2022)
- π
Innovation Leader Talent, Shandong Province (2022)
- ποΈ Shanghai High-Level Local University Innovation Team (2021)
- π Shanghai Pujiang Talents (2020)
- π₯ 8th Challenge Cup Business Plan Competition, Silver Award (2012)
- π
1st National Huatu Education Entrepreneurship Foundation, Silver Award (2012)
- π₯ 7th Challenge Cup College Business Plan Competition, Silver Award (2012)
- π Second-class Scholarship, Fudan University (2012)
- π¨ 1st Fudan Nanoart Exhibition, Exceptional Work Award (2012)
Publication Top Notes:
π “In-Situ anchoring of nano-CuS onto PET@PE nonwoven fabrics: Developing flexible, robust, and all-in-one integrated thermotherapy films”
π “Ultra-Fast Fabrication of Mechanical-Water-Responsive Color-Changing Photonic Crystals Elastomers and 3D Complex Devices” (2024) β Small β 1 citation