Effect of hydrophilic co-electrospinning agents on the structure and morphology of hydrophobic natural zein-based nanofibers

IF 3.5 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Science Pub Date : 2025-05-06 DOI:10.1007/s10853-025-10906-6

Na Yang, Zihan Wang, Ze Liu, Huafeng Tian, Dahai Gao, Gaiping Guo, Yuhua Dai

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引用次数: 0

Abstract

As a hydrophobic natural protein, zein has attracted extensive attention because of its versatility and excellent biodegradability. However, neat zein exhibits poor spinnability during electrospinning. To fabricate zein-based nanofibers, different hydrophilic co-spinning agents (collagen (Co), gelatin (GE) and polyethylene oxide (PEO)) were incorporated and optimized electrospinning parameter (voltage) for each additive was reported. The relationship between the performance of spinning solution as well as the spinnability and microstructure of zein nanofabrics was analyzed in detail. Co-spinning could improve the spinning ability of zein. The morphology of nanofibers was improved to varying degrees by adjusting the content of co-electrospinning agents and adjusting process parameters. The viscosity, conductivity and the pH value of the spinning solution with different co-spinning agents were analyzed. PEO exhibited a more dramatically effect on improving the spinning ability of zein. The zein-based film had a uniform and complete structure and certain hydrophobicity, and exhibited wide application prospects.

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亲水共静电纺丝剂对天然疏水玉米蛋白基纳米纤维结构和形态的影响

玉米蛋白作为一种疏水性天然蛋白，因其通用性和良好的生物降解性而受到广泛关注。然而，纯玉米蛋白在静电纺丝过程中表现出较差的可纺性。采用不同的亲水性共纺丝剂（胶原蛋白（Co）、明胶（GE）和聚氧聚乙烯（PEO））制备了玉米蛋白基纳米纤维，并对每种助剂的静电纺丝参数（电压）进行了优化。详细分析了玉米蛋白纳米织物的纺丝液性能、可纺性与微观结构之间的关系。共纺丝可以提高玉米蛋白的纺丝能力。通过调整共静电纺丝剂的用量和工艺参数，纳米纤维的形貌都有不同程度的改善。分析了不同共纺剂对纺丝液的粘度、电导率和pH值的影响。PEO对玉米蛋白纺丝性能的改善作用更为显著。玉米蛋白基膜结构均匀完整，具有一定的疏水性，具有广阔的应用前景。

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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.