Advances of polyolefins from fiber to nanofiber: fabrication and recent applications.

0 MATERIALS SCIENCE, MULTIDISCIPLINARY Discover nano Pub Date : 2024-02-06 DOI:10.1186/s11671-023-03945-y
Mohammad Zakaria, M A Rahman Bhuiyan, Md Shakawat Hossain, N M-Mofiz Uddin Khan, Md Abdus Salam, Koji Nakane
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Abstract

Polyolefins are a widely accepted commodity polymer made from olefinic monomer consisting of carbon and hydrogen. This thermoplastic polymeric material is formed through reactive double bonds of olefins by the addition polymerization technique and it possesses a diverse range of unique features for a large variety of applications. Among the various types, polyethylene and polypropylene are the prominent classes of polyolefins that can be crafted and manipulated into diversified products for numerous applications. Research on polyolefins has boomed tremendously in recent times owing to the abundance of raw materials, low cost, lightweight, high chemical resistance, diverse functionalities, and outstanding physical characteristics. Polyolefins have also evidenced their potentiality as a fiber in micro to nanoscale and emerged as a fascinating material for widespread high-performance use. This review aims to provide an elucidation of the breakthroughs in polyolefins, namely as fibers, filaments, and yarns, and their applications in many domains such as medicine, body armor, and load-bearing industries. Moreover, the development of electrospun polyolefin nanofibers employing cutting-edge techniques and their prospective utilization in filtration, biomedical engineering, protective textiles, and lithium-ion batteries has been illustrated meticulously. Besides, this review delineates the challenges associated with the formation of polyolefin nanofiber using different techniques and critically analyzes overcoming the difficulties in forming functional nanofibers for the innovative field of applications.

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聚烯烃从纤维到纳米纤维的发展:制造和最新应用。
聚烯烃是一种被广泛接受的商品聚合物,由碳和氢组成的烯烃单体制成。这种热塑性聚合材料是通过加成聚合技术使烯烃的双键发生反应而形成的,它具有多种多样的独特功能,可用于多种用途。在各种类型中,聚乙烯和聚丙烯是聚烯烃的主要类别,可加工成多种产品,应用广泛。由于原材料丰富、成本低、重量轻、耐化学性强、功能多样以及物理特性突出,聚烯烃的研究近来蓬勃发展。聚烯烃还证明了其作为微米到纳米级纤维的潜力,并成为一种可广泛应用于高性能领域的迷人材料。本综述旨在阐明聚烯烃(即纤维、长丝和纱线)的突破性进展及其在医学、人体装甲和承重工业等众多领域的应用。此外,还详细介绍了采用尖端技术开发的电纺聚烯烃纳米纤维及其在过滤、生物医学工程、防护纺织品和锂离子电池中的应用前景。此外,这篇综述还描述了使用不同技术形成聚烯烃纳米纤维所面临的挑战,并批判性地分析了如何克服困难,为创新应用领域形成功能性纳米纤维。
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