静电纺丝法制备纳米纤维垫及其形貌分析综述

A. Ahmadian, Abbas Shafiee, Nojan Aliahmad, Mangilal Agarwal
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引用次数: 38

摘要

静电纺纳米纤维具有两个重要的特性:高表面体积比和相对无缺陷的分子结构。由于高表面体积比,电纺材料非常适合需要增加物理接触的活动,例如为化学反应或过滤小尺寸物理材料提供场所。然而,静电纺丝有许多缺点,包括生产无机纳米纤维的困难,以及在该过程中使用的聚合物数量或种类有限。本文对静电纺丝法制备纳米纤维束进行了分析研究,探讨了静电纺丝各有效参数与各种纤维形态相对丰度之间的关系。许多变量会影响纳米纤维的制造,导致各种各样的形态,如均匀的、纠缠的、单个的珠子、串上的珠子等。因此,研究了在适当的环境条件下,选择合适的聚合物和溶剂,以获得均匀的聚合物溶液,并在不同的电纺丝材料中具有所需的纳米纤维性能。最后,对静电纺丝技术在纳米细纤维各领域的应用前景进行了展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Overview of Nano-Fiber Mats Fabrication via Electrospinning and Morphology Analysis
Electrospun nano-fibers exhibit two significant properties: a high surface-to-volume ratio and a relatively defect-free molecular structure. Due to the high surface-to-volume ratio, electro-spun materials are well suited for activities requiring increased physical contact, such as providing a site for a chemical reaction or filtration of small-sized physical materials. However, electrospinning has many shortcomings, including difficulties in producing inorganic nanofibers and a limited number or variety of polymers used in the process. The fabrication of nanofiber bundles via electrospinning is explored in this analytical study and the relationship between all effective electrospinning parameters and the relative abundance of various fiber morphologies. Numerous variables could impact the fabrication of nanofibers, resulting in a variety of morphologies such as uniform, entangled, individual beads, beads-on-string, etc. Therefore, adequate ambient conditions and selecting the appropriate polymer and solvent for achieving a homogenous polymer solution and uniform with desired nanofiber properties for different applications of electro-spun materials are examined. Finally, the promising applications of nano-fine fibers in various fields achieved via electrospinning are studied in this paper.
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