Formation of Hierarchical Structure in Microspheres Fabricated with Microfluidic Method based on Homopolymer Blend

IF 0.3 4区 工程技术 Q4 MATERIALS SCIENCE, TEXTILES
Ryoka Shoji, Saki Yoshida, S. Kanehashi, K. Okamoto, Ma Guanghui, K. Ogino
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引用次数: 0

Abstract

Recently, particles of polymer composites including polymer-polymer blends and hybrids with inorganic materials with various functionalities have been applied to biomedical fields [1], optical devices [2], and so on. The particles of polymer composites have been prepared by several techniques. Especially, a microfluidic device has received considerable attention because of the simple procedure to fabricate multiple-phase emulsions utilizing the laminar flow inside narrow capillaries, and multiple phases can be formed in the interiors of the emulsion droplets, resulting in the formation of multi-phased polymer microspheres [3, 4]. Nisisako et al. reported that a microfluidic system which involves a binary mixture of monomer droplets containing different pigments produces the polymer particles of Janus types [5]. In contrast, the approaches using the self-assembly of multi-components, i.e., the phase separation of polymers, can also afford microspheres with internal and surface nanostructures. Nanostructured microspheres exhibit a potential for applications in the next generation such as the optical and photonic 【Transaction】
基于均聚物共混的微流体法制备微球中分层结构的形成
近年来,高分子复合材料的颗粒(包括聚合物-聚合物共混物和与各种功能无机材料的杂化物)已被应用于生物医学领域[1]、光学器件[2]等。高分子复合材料颗粒的制备方法有多种。特别是一种微流控装置,由于利用狭窄的毛细管内部层流制备多相乳液的方法简单,可以在乳液液滴内部形成多相,从而形成多相聚合物微球,因此受到了相当大的关注[3,4]。Nisisako等人报道了一种微流体系统,该系统涉及含有不同颜料的单体液滴的二元混合物,可产生Janus型[5]的聚合物颗粒。相比之下,利用多组分自组装的方法,即聚合物的相分离,也可以提供具有内部和表面纳米结构的微球。纳米结构微球在光学和光子等新一代领域具有潜在的应用前景。
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
Journal of Fiber Science and Technology
Journal of Fiber Science and Technology Materials Science-Materials Science (miscellaneous)
CiteScore
0.50
自引率
0.00%
发文量
17
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