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基于二维碳化钛材料修饰的功能棉针织物制备及其性能
引用本文:葛佳慧,毛志平,张琳萍,钟毅,隋晓锋,徐红. 基于二维碳化钛材料修饰的功能棉针织物制备及其性能[J]. 纺织学报, 2023, 44(4): 132-138. DOI: 10.13475/j.fzxb.20211003207
作者姓名:葛佳慧  毛志平  张琳萍  钟毅  隋晓锋  徐红
作者单位:1.东华大学 生态纺织教育部重点实验室, 上海 2016202.东华大学 化学与化工学院, 上海 2016203.山东中康国创先进印染技术研究院有限公司 国家先进印染技术创新中心, 山东 泰安 271000
基金项目:中央高校基本科研业务费专项资金资助项目(2232021G-04);山东省重点研发计划项目(2020CXGC011102)
摘    要:为拓展二维碳化钛材料在棉针织物中的应用,制备具有一定耐水洗性能的导电棉针织物,首先利用LiF/HCl混合溶液刻蚀前驱体钛碳化铝获得二维碳化钛导电材料(Ti3C2Tx),再对棉针织物进行阳离子化改性,使Ti3C2Tx通过静电作用附着到阳离子化的棉针织物表面,得到导电棉针织物材料。借助X射线衍射仪、X射线光电子能谱仪、扫描电子显微镜、透射电子显微镜等手段对棉针织物在阳离子化改性前后以及负载Ti3C2Tx前后进行形貌表征和元素分析。通过RTS-9型四探针测试导电棉针织物的表面电阻,对棉针织物阳离子化改性工艺及Ti3C2Tx在阳离子化棉针织物表面的负载条件进行了优化。得到棉针织物阳离子化改性的最佳工艺:阳离子改性剂用量为10%(o.w.f),氢氧化钠质量浓度为10 g/L,获得Ti3C2T<...

关 键 词:二维碳化钛材料  阳离子改性  导电织物  耐水洗性能  功能纺织品
收稿时间:2021-10-15

Preparation and properties of functional cotton knitwear modified by two-dimensional titanium carbide
GE Jiahui,MAO Zhiping,ZHANG Linping,ZHONG Yi,SUI Xiaofeng,XU Hong. Preparation and properties of functional cotton knitwear modified by two-dimensional titanium carbide[J]. Journal of Textile Research, 2023, 44(4): 132-138. DOI: 10.13475/j.fzxb.20211003207
Authors:GE Jiahui  MAO Zhiping  ZHANG Linping  ZHONG Yi  SUI Xiaofeng  XU Hong
Affiliation:1. Key Laboratory of Science & Technology of Eco-Textiles, Ministry of Education, Donghua University, Shanghai 201620, China2. College of Chemistry and Chemical Engineering, Donghua University, Shanghai 201620, China3. National Innovation Center of Advanced Dyeing & Finishing Technology, Shandong Zhongkang Guochuang Research Institute of Advanced Dyeing & Finishing Technology Co., Ltd., Taian, Shandong 271000, China
Abstract:Objective Through preparation of conductive cotton fabrics with washable properties and application of two-dimensional titanium carbide to cotton fabrics, this research aims to obtain conductive cotton fabrics with a new method.Method By cationic modification of cotton fabric, two-dimensional nanomaterial Ti3C2Tx was adsorbed on the surface of cationic cotton fabric to obtain new conductive cotton fabrics. The morphologies and elements of cotton knitted products before and after cationic modification and Ti3C2Tx loading were analyzed by X-ray diffractometer, X-ray photoelectron spectroscopy, scanning electron microscopy and transmission electron microscopy. The surface resistance of conductive cotton fabric was tested by using RTS-9 four probes, and the cationic modification technology and adsorption conditions of Ti3C2Tx were optimized, so as to obtain the optimal scheme.Results Ti3AlC2 is a three-dimensional solid, and the product after etching by hydrofluoric acid becomes a two-dimensional nanomaterial. This conclusion has been confirmed in the electron microscopy (Fig. 1), and it is also confirmed that the etched material contains F, O and other groups (Fig. 2), making the two-dimensional material negatively charged. Cationic modifier is a polymer nitrogen-containing compound. After cationic modification, the surface of cotton knitted fabric is grafted with positive amino group (Fig. 3). After ultrasonic treatment with Ti3C2Tx, there are Ti, F, O and other groups on the surface of the fabric, which proves that Ti3C2Tx is successfully loaded on the surface of the fabric (Fig. 4). Following the experimental design (Tab. 1), the optimal processing conditions are that the cationic modifier is 10% o.w.f(Fig. 6), the concentration of sodium hydroxide is 10 g/L (Fig. 5), the modification time is 30 min, and the ultrasonic time of Ti3C2Tx is 60 min (Fig. 8). Under optimized conditions, the surface resistance of cationic modified cotton knitted material loaded with Ti3C2Tx can be as low as 84.5 Ω/□. After 20 times of washing, the surface resistance of conductive cotton knitted material increases from 84.5 Ω/□ to 95.6 Ω/□, still below 100 Ω/□ (Fig. 9).Conclusion This paper provides a method for fabric-loaded Ti3C2Tx nanosheets for fabric-based flexibility with excellent preparative properties. After cationic modification of cotton fabric, conductive nanosheets are applied to the fabric by adsorption. The composite cotton fabric has good electrical conductivity. The conductive fabric obtained by this method is simple and has excellent electrical conductivity textiles offer new ideas, and Ti3C2Tx/cation-modified cotton knitted fabrics can still maintain certain conductivity after washing for many times, but there are still many shortcomings and unsolved problems. For example, the preparation of Ti3C2Tx/cation modified cotton knitted fabric has good water resistance, but composites conductivity needs to be improved. Subsequent experiments can further explore the use of other cationic modifiers for comparison, or use adhesives to attach nanosheets to fabrics to observe whether the conductivity of composite materials is improved, and the application of nanomaterials in fabrics can be expanded by trying other fabrics.
Keywords:Ti3C2Tx  cationic modification  conductive fabric  washable property  functional fabric  
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