4.7 Article

Upcycling Wool Waste into Keratin Gel-Based Nanofibers Using Deep Eutectic Solvents

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GELS
卷 9, 期 8, 页码 -

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MDPI
DOI: 10.3390/gels9080661

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wool waste; wool keratin; deep eutectic solvent; electrospinning; gel-based nanofibers; waste valorization

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Millions of tons of wool waste produced by textile industries each year can be a serious environmental hazard. Researchers have explored the use of deep eutectic solvents to dissolve and regenerate wool keratin, and produced nanofibers using the electrospinning technique. This approach offers a unique avenue for developing sustainable functional materials with potential applications.
Millions of tons of wool waste are produced yearly by textile industries, which may become a serious environmental hazard in the near future. Given this concern, it is crucial to explore strategies to reduce the amount of wool waste generated worldwide and adopt more sustainable practices for dissolving and regenerating wool keratin (WK) from textile waste. Most traditional methods involve the use of expensive, toxic, harmful, and poorly biodegradable compounds. To overcome these limitations and facilitate the reuse of wool waste through a cascade valorization strategy, researchers have started testing the use of deep eutectic solvents (DES) as a more sustainable and eco-friendly alternative for WK dissolution and regeneration. In this study, the potential of two different DES mixtures, Choline chloride (ChCl): Urea and L-Cysteine (L-Cys): Lactic acid (LA), was explored for dissolving wool waste. Subsequently, the gels obtained based on DES-WK were blended with polyvinyl alcohol (PVA) in different ratios to produce nanofibers using the electrospinning technique. The PVA/L-Cys: LA DES-WK proved to be the most effective DES mixture for fabricating WK gel-based nanofibers. Furthermore, their antioxidant and antimicrobial abilities were evaluated, thus confirming their bioactivity. The results obtained revealed that this approach to valorizing textile waste offers a unique avenue for the development of sustainable functional materials with potential applications in various biomedical and industrial fields.

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