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首页> 外文期刊>Journal of Applied Polymer Science >Recent studies on electrospinning preparation of patterned, core-shell, and aligned scaffolds
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Recent studies on electrospinning preparation of patterned, core-shell, and aligned scaffolds

机译:近期静电纺丝制备的近期研究,核心壳和对齐支架

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摘要

Electrospinning is one of the most important ways to prepare continuous, high porosity, large specific surface area, and uniform diameter micro- and nanoscale fibers. So, it has been widely used in the preparation of micro/nano-sized polymer scaffolds for tissue engineering in recent years. In addition to the versatility in material selection and the processing variables, electrospinning also provides a lot of methods to regulate fiber structure and scaffolds morphology. For example, the near-field electrospinning can provide a method to solve the problem of uncontrollable fiber path; the melt electrospinning eliminates the risk of solvent residue in the construct; the addition of different auxiliary electrodes can make the fiber patterned. This review introduces the underlying principle and characteristics of above electrospinning applied in biomedicine. Herein, we highlight a comprehensive understanding of the technical aspect of this technology for versatile fibers with patterned, core-shell and aligned morphology. (C) 2018 Wiley Periodicals, Inc.
机译:静电纺丝是制备连续,高孔隙率,大的比表面积和均匀的直径微纤维和纳米级纤维的最重要的方式之一。因此,它已广泛用于近年来制备用于组织工程的微/纳米大小聚合物支架。除了材料选择和处理变量中的多功能性之外,静电纺丝还提供了大量的方法来调节纤维结构和支架形态。例如,近场静电纺线可以提供一种解决无法控制的光纤路径问题的方法;熔融静电纺丝消除了构建体中溶剂残留的风险;添加不同的辅助电极可以使光纤图案化。本综述介绍了在生物医学中施用的上述静电纺丝的潜在原理和特征。在此,我们突出了对这种技术技术方面的全面理解,对于具有图案化,核心壳和对齐形态的多功能纤维。 (c)2018 Wiley期刊,Inc。

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