Advances in Electrospun Nanofibers: Versatile Materials and Diverse Biomedical Applications

IF 14 Q1 CHEMISTRY, MULTIDISCIPLINARY
Chenlong Wang, Yajuan Su, Jingwei Xie
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引用次数: 0

Abstract

Electrospining has emerged as a versatile and transformative technique for the fabrication of nanofiber materials, which have been shown to be promising in applications across various biomedical domains. Cutting-edge research in electrospinning technology is centered on enhancing versatility, efficiency, and functionality of electrospun nanofibers through several key facets. These include the development of advanced materials, with ongoing exploration into novel polymer systems spanning synthetic polymers, natural polymers, and polymer blends to broaden the spectrum of achievable properties and functions. Additionally, there is significant emphasis on controlling fiber size, morphology, and alignment. Surface functionalization with bioactive molecules, drugs, or targeting ligands enhances specific functionalities like antimicrobial properties, cell adhesion, or targeted drug delivery. Furthermore, researchers are delving into the creation of multifunctional hybrid structures by integrating electrospinning with other fabrication techniques such as 3D printing, microfluidics, or layer-by-layer assembly, enabling customized properties and functionalities. Lastly, there is a strong fucus on biomedical applications, leveraging electrospun nanofibers for tissue engineering, wound healing, drug delivery, and biosensing, aiming to develop biocompatible and bioresorbable scaffolds with controlled structural and bioactive cues to promote tissue regeneration and repair.

Abstract Image

电纺纳米纤维的研究进展:多功能材料和多样化生物医学应用
电纺丝已成为一种用于制造纳米纤维材料的多功能变革性技术,在各种生物医学领域的应用已被证明前景广阔。电纺丝技术的前沿研究集中于通过几个关键方面来提高电纺纳米纤维的多功能性、效率和功能。其中包括开发先进材料,不断探索新型聚合物系统,包括合成聚合物、天然聚合物和聚合物混合物,以拓宽可实现的性能和功能范围。此外,对纤维尺寸、形态和排列的控制也是重点。用生物活性分子、药物或靶向配体进行表面功能化可增强特定功能,如抗菌性、细胞粘附性或靶向给药性。此外,研究人员还通过将电纺丝与三维打印、微流体或逐层组装等其他制造技术相结合,深入研究多功能混合结构的创造,从而实现定制的特性和功能。最后,电纺纳米纤维在组织工程、伤口愈合、药物输送和生物传感方面的生物医学应用也十分突出,旨在开发具有可控结构和生物活性线索的生物相容性和生物可吸收性支架,以促进组织再生和修复。
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来源期刊
CiteScore
17.70
自引率
0.00%
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