综述：角蛋白基静电纺丝材料的研究进展及应用

IF 3.9 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Science Pub Date : 2025-09-15 DOI:10.1007/s10853-025-11463-8

Jianan Song, Feifei Zhang, Chuanjin Shi, Jie Liu, Xinyue Nian, Kangjia Song, Xinglei Yan

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引用次数: 0

摘要

角蛋白范围广泛，资源丰富，其优良的生物学特性使其适合加工应用。纳米纤维材料因其优异的比表面积和孔隙率，以及其细小均匀的纤维而被广泛应用于许多领域。静电纺丝技术具有操作简单、条件可控、成本低等优点，使角蛋白基纳米纤维膜具有多种特性。本文综述了静电纺丝技术、原料选择、影响因素（浓度、电压、接收距离等）、角蛋白基静电纺纳米纤维材料的种类以及角蛋白基静电纺纳米纤维膜的应用领域（医用敷料、药物释放、组织工程、柔性传感）。本文还讨论了角蛋白基纳米纤维材料的不足和未来的发展方向，旨在通过不断优化反应条件和探索静电纺丝原料的种类来改善角蛋白基纳米纤维材料的微观结构和功能性能，从而确定角蛋白基纳米纤维材料的合适应用方向。图形抽象

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Review: research progress and application of keratin-based electrospinning materials

Keratin has a wide range and abundant resources, and its excellent biological properties make it suitable for processing applications. Nanofiber materials are widely used in many fields due to their excellent specific surface area and porosity, as well as their small and uniform fibers. Electrospinning technology has the advantages of easy operation, controllable conditions, and low cost, which gives various characteristics of keratin-based nanofiber membranes. This review elaborates on electrospinning technology, raw material selection, influencing factors (concentration, voltage, receiving distance, etc.), types of keratin-based electrospun nanofiber materials, and application fields of keratin-based electrospun nanofiber membranes (medical dressings, drug release, tissue engineering, flexible sensing). The paper also discusses the shortcomings of keratin-based nanofiber materials and their future development directions, with the aim of improving the microstructure and functional properties of keratin-based nanofiber materials by continuously optimizing reaction conditions and exploring the types of raw materials used in electrospinning, thereby identifying suitable application directions for these materials.

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来源期刊

Journal of Materials Science 工程技术-材料科学：综合

CiteScore

7.90

自引率

4.40%

发文量

1297

审稿时长

2.4 months

期刊介绍： The Journal of Materials Science publishes reviews, full-length papers, and short Communications recording original research results on, or techniques for studying the relationship between structure, properties, and uses of materials. The subjects are seen from international and interdisciplinary perspectives covering areas including metals, ceramics, glasses, polymers, electrical materials, composite materials, fibers, nanostructured materials, nanocomposites, and biological and biomedical materials. The Journal of Materials Science is now firmly established as the leading source of primary communication for scientists investigating the structure and properties of all engineering materials.