Functionalization of Technical Textiles with Chitosan

Textiles Pub Date : 2024-02-15 DOI:10.3390/textiles4010006

Kristina Klinkhammer, Hanna Hohenbild, Mohammad Toufiqul Hoque, Laura Elze, Helen Teshay, B. Mahltig

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Abstract

Textiles are used for many different applications and require a variety of properties. Wet functionalization improve textiles’ properties, such as hydrophilicity or antimicrobial activity. Chitosan is a bio-based polymer widely investigated in the textile industry for this purpose. A weaving comprising a cotton/polyester mix and a pure-polyester weaving was functionalized with different concentrations of chitosan to determine the most robust method for chitosan detection in both cotton- and polyester-containing materials. Additionally, mixtures of chitosan with 3-glycidyloxypropyltriethoxy silane (GLYEO) or 3-aminopropyltriethoxy silane (AMEO) were applied in a one-step or two-step procedure on the same fabrics. Scanning electron microscopy (SEM) combined with energy-dispersive X-ray spectroscopy (EDS) and dyeing with Remazol Brilliant Red F3B demonstrated the presence of chitosan and silanes on the textiles’ surfaces. While non-functionalized textiles were not stained, the dependency of the dyeing depths on the chitosan concentrations enabled us to infer the efficacy of the very short processing time and a mild dyeing temperature. The one-step application of AMEO and chitosan resulted in the highest presence of silicon on the textile and the greatest color intensity. The functionalization with GLYEO reduced the water sink-in time of polyester, while chitosan-containing solutions increased the hydrophobicity of the material. Washing experiments demonstrated the increasing hydrophilicity of the cotton/polyester samples, independent of the type of functionalization. These experiments show that chitosan-containing recipes can be used as part of a useful method, and the type of functionalization can be used to adjust the hydrophilic properties of polyester and cotton/polyester textiles. Via this first step, in the future, new combinations of bio-based polymers with inorganic binder systems can be developed, ultimately leading to sustainable antimicrobial materials with modified hydrophilic properties.

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用壳聚糖对技术纺织品进行功能化处理

纺织品用途广泛，需要具备各种特性。湿功能化可改善纺织品的特性，如亲水性或抗菌活性。壳聚糖是纺织业为此广泛研究的一种生物基聚合物。我们用不同浓度的壳聚糖对棉/涤混合织物和纯涤纶织物进行了功能化处理，以确定在含棉和涤纶的材料中检测壳聚糖的最可靠方法。此外，壳聚糖与 3-缩水甘油氧基丙基三乙氧基硅烷（GLYEO）或 3-氨丙基三乙氧基硅烷（AMEO）的混合物以一步法或两步法应用于相同的织物。扫描电子显微镜（SEM）与能量色散 X 射线光谱（EDS）相结合，并用雷马索尔艳红 F3B 进行染色，结果表明纺织品表面存在壳聚糖和硅烷。虽然未功能化的纺织品未被染色，但染色深度与壳聚糖浓度的关系使我们能够推断出极短的加工时间和温和的染色温度的功效。一步施用 AMEO 和壳聚糖后，纺织品上的硅含量最高，颜色也最深。用 GLYEO 进行功能化可缩短涤纶的沉水时间，而含壳聚糖的溶液则可增加材料的疏水性。洗涤实验表明，棉/涤纶样品的亲水性不断增强，与官能化类型无关。这些实验表明，含壳聚糖的配方可作为有用方法的一部分，而官能化类型可用于调节聚酯和棉/涤纶纺织品的亲水性能。通过这第一步，未来可以开发出生物基聚合物与无机粘合剂系统的新组合，最终生产出具有改良亲水性能的可持续抗菌材料。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Textiles

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