A TEMPLATE-BASED FABRICATION TECHNIQUE FOR SPATIALLY-DESIGNED POLYMER MICRO/NANOFIBER COMPOSITES.

Digest of technical papers. International Conference on Solid-State Sensors, Actuators, and Microsystems Pub Date : 2009-01-01 DOI:10.1109/SENSOR.2009.5285711

Nisarga Naik, Jeff Caves, Vivek Kumar, Elliot Chaikof, Mark G Allen

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引用次数: 3

Abstract

This paper reports a template-based technique for the fabrication of polymer micro/nanofiber composites, exercising control over the fiber dimensions and alignment. Unlike conventional spinning-based methods of fiber production, the presented approach is based on micro-transfer molding. It is a parallel processing technique capable of producing fibers with control over both in-plane and out-of-plane geometries, in addition to packing density and layout of the fibers. Collagen has been used as a test polymer to demonstrate the concept. Hollow and solid collagen fibers with various spatial layouts have been fabricated. Produced fibers have widths ranging from 2 µm to 50 µm, and fiber thicknesses ranging from 300 nm to 3 µm. Also, three-dimensionality of the process has been demonstrated by producing in-plane serpentine fibers with designed arc lengths, out-of-plane wavy fibers, fibers with focalized particle encapsulation, and porous fibers with desired periodicity and pore sizes.

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基于模板的空间设计聚合物微/纳米纤维复合材料制备技术。

本文报道了一种基于模板的聚合物微/纳米纤维复合材料的制造技术，该技术可以控制纤维的尺寸和排列。与传统的基于纺丝的纤维生产方法不同，本文提出的方法是基于微传递成型的。这是一种平行加工技术，除了纤维的填充密度和布局外，还能够生产出具有控制面内和面外几何形状的纤维。胶原蛋白已被用作验证这一概念的测试聚合物。已制备出具有不同空间布局的空心和实心胶原纤维。生产的光纤宽度为2µm ~ 50µm，纤维厚度为300µm ~ 3µm。此外，通过生产具有设计弧长的面内蛇形纤维、面外波浪形纤维、具有聚焦颗粒封装的纤维以及具有所需周期性和孔径的多孔纤维，也证明了该工艺的三维性。

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Digest of technical papers. International Conference on Solid-State Sensors, Actuators, and Microsystems

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