用于气体传感和电子纺织品应用的皮芯结构聚苯胺/纤维素导电纤维的均相湿法纺丝构建

Homogeneous wet-spinning construction of skin-core structured PANI/cellulose conductive fibers for gas sensing and e-textile applications.

作者信息

Wang Chuang, Liao Yiqi, Yu Hou-Yong, Dong Yanjuan, Yao Juming

机构信息

Key Laboratory of Intelligent Textile and Flexible Interconnection of Zhejiang Province, Zhejiang Sci-Tech University, Hangzhou 310018, China.

Key Laboratory of Intelligent Textile and Flexible Interconnection of Zhejiang Province, Zhejiang Sci-Tech University, Hangzhou 310018, China; State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Donghua University, Shanghai 201620, China.

出版信息

Carbohydr Polym. 2023 Nov 1;319:121175. doi: 10.1016/j.carbpol.2023.121175. Epub 2023 Jul 6.

DOI:10.1016/j.carbpol.2023.121175

PMID:37567715

Abstract

Fiber-based wearable electronic textiles have broad applications, but non-degradable substrates may contribute to electronic waste. The application of cellulose-based composite fibers as e-textiles is hindered by the lack of fast and effective preparation methods. Here, we fabricated polyaniline (PANI)/cellulose fibers (PC) with a unique skin-core structure through a wet-spinning homogeneous blended system. The conductive network formation was enabled at a mere 1 wt% PANI. Notably, PC15 (15 wt% PANI) shows higher electrical conductivity of 21.50 mS cm. Further, PC15 exhibits excellent ammonia sensing performance with a sensitivity of 2.49 %/ppm and a low limit of detection (LOD) of 0.6 ppm. Cellulose-based composite fibers in this work demonstrate good gas sensing and anti-static properties as potential devices for smart e-textiles.

摘要

基于纤维的可穿戴电子纺织品有广泛应用，但不可降解的基底可能会造成电子垃圾。由于缺乏快速有效的制备方法，基于纤维素的复合纤维在电子纺织品中的应用受到阻碍。在此，我们通过湿纺均匀混合体系制备了具有独特皮芯结构的聚苯胺（PANI）/纤维素纤维（PC）。仅1 wt%的聚苯胺就能形成导电网络。值得注意的是，PC15（15 wt%聚苯胺）显示出更高的电导率，为21.50 mS/cm。此外，PC15表现出优异的氨传感性能，灵敏度为2.49 %/ppm，检测限低至0.6 ppm。这项工作中的基于纤维素的复合纤维作为智能电子纺织品的潜在器件，展现出良好的气敏和抗静电性能。

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用于气体传感和电子纺织品应用的皮芯结构聚苯胺/纤维素导电纤维的均相湿法纺丝构建

Homogeneous wet-spinning construction of skin-core structured PANI/cellulose conductive fibers for gas sensing and e-textile applications.

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