Bionic multifunctional fibrous materials for efficient oil/water separation

Droplet Pub Date : 2023-07-19 DOI:10.1002/dro2.75
Yuyan Guo, Zhiguang Guo, Weimin Liu
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引用次数: 1

Abstract

Special wettability fibrous materials have received a lot of attention because of their good connectivity, mechanical flexibility, large specific surface area, and ease of shape manipulation. Their outstanding performance paves the way toward efficient oil/water separation in a variety of environments and for separation requirements. This paper discusses the distinct advantages, challenges, and future research directions of various substrates for fibrous materials, such as nonwoven natural biomass fibers, fabrics, electrospinning fibers, metallic fibers, and inorganic nonmetallic fibers. The special wettability fibrous filter materials and fibrous adsorbents are summarized based on the different separation methods. The principles of preparation of various special wettabilities are introduced, and the unique advantages of fibrous adsorbents are emphasized. The preparation strategy of fibrous filter materials is discussed, as well as some representative work and research progress. The benefits, drawbacks, and research directions in terms of various materials are examined. This article emphasizes the pollution resistance of fibrous filter materials and the elasticity of fibrous adsorbents. Finally, the prospects in terms of the problems, challenges, and future development of special wettability fibrous materials used in oil/water separation are discussed.

Abstract Image

用于高效油水分离的仿生多功能纤维材料
特殊润湿性纤维材料因其良好的连接性、机械柔韧性、大的比表面积和易于形状操纵而受到广泛关注。它们卓越的性能为在各种环境中实现高效的油/水分离和满足分离要求铺平了道路。本文讨论了各种纤维材料基质的独特优势、挑战和未来的研究方向,如非织造天然生物质纤维、织物、静电纺丝纤维、金属纤维和无机非金属纤维。根据不同的分离方法,总结了具有特殊润湿性的纤维滤料和纤维吸附剂。介绍了各种特殊可湿性的制备原理,强调了纤维吸附剂的独特优势。讨论了纤维滤料的制备策略,以及一些有代表性的工作和研究进展。考察了各种材料的优点、缺点和研究方向。本文着重介绍了纤维滤料的耐污染性和纤维吸附剂的弹性。最后,对用于油水分离的特殊润湿性纤维材料的问题、挑战和未来发展前景进行了展望。
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CiteScore
6.60
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