利用膜和微流体装置大规模制造磁性聚合物颗粒

Qingchun Yuan, Richard A. Williams
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引用次数: 23

摘要

磁性聚合物颗粒在生物医学治疗、诊断和分离技术等各个领域都有应用。这些应用要求颗粒具有可控的尺寸和狭窄的尺寸分布,以便在使用中获得更好的控制和再现性。本文综述了用溶解或原位形成的聚合物包封磁性组分在纳米和微尺度上制备磁性聚合物颗粒的最新进展。颗粒制造采用乳化和嵌入的方法生产磁性聚合物颗粒在微观尺度。然而,使用传统的乳化方法生产的颗粒在这个范围内,对颗粒大小和多分散性的控制非常有限。我们报道了使用膜和微流体乳化技术的替代路线,这些技术能够生产亚微米到100 μm范围内的单分散乳液和聚合物微球(变化系数小于10%)。对这些制造方法的性能进行了评估,以期将来的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Large scale manufacture of magnetic polymer particles using membranes and microfluidic devices

Magnetic polymer particles have found applications in diverse areas such as biomedical treatments, diagnosis and separation technology. These applications require the particles to have controlled sizes and narrow size distributions to gain better control and reproducibility in use. This paper reviews recent developments in the preparation of magnetic polymer particles at nano- and micro-scales by encapsulating magnetic components with dissolved or in situ formed polymers. Particle manufacture using emulsification and embedment methods produces magnetic polymer particles at micro-scale dimensions. However, the production of particles in this range using conventional emulsification methods affords very limited control over particle sizes and polydispersity. We report on alternative routes using membrane and microfluidics emulsification techniques, which have a capability to produce monodisperse emulsions and polymer microspheres (with coefficients of variation of less than 10%) in the range from submicrometer to a few 100 μm. The performance of these manufacturing methods is assessed with a view to future applications.

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