Application of Clay loaded nanofibers in healing bone defects. Application of cellulose nanofibers in treatment of textile wastewater.Biomass-based fibers are revolutionizing multiple fields with their sustainable and eco-friendly properties. In woundcare, they provide enhanced healing capabilities and biocompatibility, promoting faster recovery. For food packaging,these fibers offer superior preservation of food quality and safety, reducing waste and extending shelf life. Infiltration, biomass-based fibers deliver improved efficiency and effectiveness, contributing to cleaner air and water.These innovations are paving the way for a greener, more sustainable future across various industries.ResearchGate: https://www.researchgate.net/profile/Azeem-UllahResearchmap:https://researchmap.jp/azeemullahThe future of biomass-based fiber research holds immense potential to expand sustainability and multifunctionality,opening up new application areas. In wound care, advanced treatment methods utilizing these fibers could bedeveloped, leading to faster patient recovery. In food packaging, innovative materials could emerge, preserving foodfreshness while reducing environmental impact. In filtration technology, these fibers may evolve to effectively removefine contaminants, resulting in cleaner water and air.ACS Omega 2024, 9, 21, 22734–2274372024- present: Assistant Professor, Shinshu University, Japan2022-2024: Researcher, Institute for Fiber Engineering, Shinshu University, Japan2022: Doctor of Engineering, Shinshu University, Japan2016: M.Sc. Advanced Materials Engineering, National Textile University, Pakistan2013: B.Sc. (Textile Engineering), National Textile University, PakistanE-mail: azeemullah@shinshu-u.ac.jpアジーム ウラAzeem Ullah 助教 研究の未来像:機能高分子創出部門Fibers & Textiles 研究部門研究テーマ:Fiber Innovation: Advancing Healthcare, Food safety, and Filtrationキーワード:Bioactive fiber; Electrospinning; Food packaging; Wound care; Filtration; antimicrobial
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