Nanotechnology – a new route to high-performance functional textiles

IF 2.1 Q2 MATERIALS SCIENCE, TEXTILES
Mangala Joshi, Amitava Bhattacharyya
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引用次数: 157

Abstract

The use of nanomaterials- and nanotechnology-based processes is growing at a tremendous rate in all fields of science and technology. Textile industry is also experiencing the benefits of nanotechnology in its diverse field of applications. Textile-based nanoproducts starting from nanocomposite fibers, nanofibers to intelligent high-performance polymeric nanocoatings are getting their way not only in high performance advanced applications but nanoparticles are also successfully being used in conventional textiles to impart new functionality and improved performance. Greater repeatability, reliability and robustness are the main advantages of nanotechnological advancements in textiles. Nanoparticle application during conventional textile processing techniques, such as finishing, coating and dyeing, enhances the product performance manifold and imparts hitherto unachieved functionality. New coating techniques like sol-gel, layer-by-layer, plasma polymerization etc. can develop multi-functionality, intelligence, excellent durability and weather resistance to fabrics. The present paper focuses on the development and potential applications of nanotechnology in developing multifunctional and smart nanocomposite fibers, nanofibers and other new finished and nanocoated textiles. The four main areas of textile chemical processing, namely nanofinishing, nanocoating, nanocomposite coating and nanodyeing, are covered in the first section of this paper and the second section deals with developments in nanocomposite fibers and nanofibers. The influence of nanomaterials in textile finishing and processing to enhance product performance is discussed. Nanocoating is a relatively new technique in the textile field and is currently under research and development. Polymeric nanocomposite coatings, where nanoparticles are dispersed in polymeric media and used for coating applications, are the most promising route to develop multifunctional and intelligent high-performance textiles. Not much research has been done on applying the concept of nanotechnology in dyeing of textiles except a few reports on dye particle size reduction, structural change in fibers or the surface etching of textiles to create nanostructured surfaces. The reduction in water consumption during nanotechnology applications in textile processing has the potential to control the effluent problems of a textile process house. The most researched area to produce multifunctional, smart fibers is the preparation of nanocomposite fibers where the exceptional properties of nanoparticles have been utilized to enhance and impart several functionalities on conventional textile grade fibers. Nanofibers are gaining popularity in some specialized technical applications such as filter fabric, antibacterial patches and chemical protective suits. Nanotechnological advances in these two areas of nanocomposite fibers and nanofibrous forms have also been reviewed.
纳米技术——通往高性能功能性纺织品的新途径
纳米材料和基于纳米技术的工艺在所有科学技术领域的应用正以惊人的速度增长。纺织工业也正在体验纳米技术在其不同应用领域的好处。基于纺织品的纳米产品,从纳米复合纤维、纳米纤维到智能高性能聚合物纳米涂层,不仅在高性能的先进应用中得到了发展,而且纳米颗粒也成功地应用于传统纺织品中,赋予了新的功能和改进的性能。更高的可重复性、可靠性和坚固性是纳米技术在纺织品中的主要优势。纳米颗粒在传统纺织品加工技术中的应用,如整理、涂层和染色,大大提高了产品的性能,并赋予了迄今为止尚未实现的功能。溶胶-凝胶、逐层、等离子体聚合等新型涂层技术可使织物具有多功能、智能化、优异的耐久性和耐候性。本文重点介绍了纳米技术在多功能和智能纳米复合纤维、纳米纤维和其他新型成品和涂层纺织品方面的发展和潜在应用。本文的第一部分介绍了纺织化学加工的四个主要领域,即纳米整理、纳米涂层、纳米复合涂层和纳米染色,第二部分介绍了纳米复合纤维和纳米纤维的发展。讨论了纳米材料在纺织品整理加工中对提高产品性能的影响。纳米涂层在纺织领域是一项相对较新的技术,目前正处于研究和开发阶段。高分子纳米复合涂层是一种将纳米颗粒分散于高分子介质中并用于涂层的新型涂料,是开发多功能、智能化高性能纺织品最有前途的途径。将纳米技术概念应用于纺织品染色方面的研究并不多,只有一些关于染料粒径减小、纤维结构改变或纺织品表面蚀刻以产生纳米结构表面的报道。纳米技术在纺织加工中的应用减少了水的消耗,这有可能控制纺织加工车间的废水问题。在制造多功能智能纤维方面,研究最多的是纳米复合纤维的制备,其中纳米颗粒的特殊性能已被利用来增强和赋予传统纺织级纤维的几种功能。纳米纤维在过滤织物、抗菌贴片和化学防护服等特殊技术应用中越来越受欢迎。综述了纳米复合纤维和纳米纤维形态这两个领域的纳米技术进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
TEXTILE PROGRESS
TEXTILE PROGRESS MATERIALS SCIENCE, TEXTILES-
CiteScore
4.90
自引率
6.70%
发文量
1
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