Journal
MATERIALS TODAY CHEMISTRY
Volume 24, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.mtchem.2022.100940
Keywords
Functional textiles; Special wettability; Antiwetting surfaces; Contact angle; Surface modificataion
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Superhydrophobic materials have been extensively studied and hold great promise for various applications. This review explores the potential of using bio-derived materials as greener alternatives to fluorochemicals and organosilane-based chemistries in superhydrophobic textile fabrication. The methods for creating bio-based superhydrophobic surfaces on textiles are discussed in detail.
Superhydrophobic materials have been the subject of extensive research over the last decade. The extreme water repellence of superhydrophobic surfaces derived from a highly rough morphology and inherently low-energy surface chemistry holds great promise for various applications. Textiles with superhydrophobic properties are a fascinating new class of flexible materials that have attracted tremendous interest in various applications due to their unique properties. As the field of super-hydrophobic textiles continues to develop, one of the most pressing issues is finding alternatives to fluorochemicals and organosilane-based water-repellent chemistries due to the environmental and health risks associated with their use. This review illustrates the opportunities of utilizing bio-derived materials as potential greener alternatives to synthetic materials employed in superhydrophobic textile fabrication. We briefly highlight the role of different bio-derived materials employed in super-hydrophobic textile fabrication before turning to a detailed discussion of various methods for creating bio-based superhydrophobic surfaces on textiles. (c) 2022 Elsevier Ltd. All rights reserved.
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