具有导电和电致变色功能的电活性苯胺四聚体-蜘蛛丝

Electroactive aniline tetramer-spider silks with conductive and electrochromic functionality.

作者信息

Wan Hung-Yu, Chen Yi-Ting, Li Guan-Ting, Wu Hsuan-Chen, Huang Tsao-Cheng, Yang Ta-I

机构信息

Department of Chemical Engineering, Chung-Yuan Christian University Taoyuan Taiwan

Department of Biochemical Science and Technology, National Taiwan University Taipei Taiwan.

出版信息

RSC Adv. 2022 Aug 10;12(34):21946-21956. doi: 10.1039/d2ra01065h. eCollection 2022 Aug 4.

DOI:10.1039/d2ra01065h

PMID:36043065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9364158/

Abstract

Electroactive aniline tetramer-spider silk composite fibers with high conductivity and mechanical strength were developed using a dip coating method. The fabricated spider silk composite fibers retain the high mechanical strength (0.92 GPa) and unique reversible relaxation-contraction behavior of spider dragline silks. The aniline tetramer modified on the silk surface imparted electroactive properties to the composite fibers. The color of aniline tetramer/spider silk composite fibers could be controlled by applying different pH values and voltages. Furthermore, the composite fiber's resistivity could reach 186 Ω m which can conduct electrical current to light LEDs. This study could provide a valuable guideline for developing highly-conductive electrochromic spider silks for use in E-textiles.

摘要

采用浸涂法制备了具有高导电性和机械强度的电活性苯胺四聚体-蜘蛛丝复合纤维。所制备的蜘蛛丝复合纤维保留了蜘蛛拖牵丝的高机械强度（0.92 GPa）和独特的可逆松弛-收缩行为。在丝表面修饰的苯胺四聚体赋予了复合纤维电活性。通过施加不同的pH值和电压，可以控制苯胺四聚体/蜘蛛丝复合纤维的颜色。此外，复合纤维的电阻率可达186 Ω·m，能够传导电流来点亮发光二极管。该研究可为开发用于电子纺织品的高导电电致变色蜘蛛丝提供有价值的指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c0c2/9364158/4aa062ddc72b/d2ra01065h-f1.jpg

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具有导电和电致变色功能的电活性苯胺四聚体-蜘蛛丝

Electroactive aniline tetramer-spider silks with conductive and electrochromic functionality.

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