Rui Ding , Xue-qi Zhang , Jing Lv , Xuan Liang , An-lan Ji , Yu-chen Zhang , Jie Fu , Xiao Lv , Lan Yao , Sheng-ying Yang , Guo-qing Mao , Heng Yang , Jie Liu , Hai-bin Yu
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引用次数: 0
摘要
基于电纺丝方法制备的芯-鞘纤维的防腐蚀涂层被开发出来,用于指示和修复涂层的大规模损坏。其核心是由 AIE-基团和 CHEF-基团组成的复合荧光剂,由于 CHEF 和 FRET 效应,复合荧光剂表现出对腐蚀敏感的强荧光特性。当以纤维为核心材料的涂层受到破坏时,复合荧光剂可提供有关损坏位置的信息。护套是光热材料,由光热响应性酸掺杂聚苯胺和形状记忆聚氨酯组成。在红外线激光的照射下,掺酸聚苯胺的光热特性有助于加热受损区域。软化和活化的聚氨酯同时导致分子链在封闭的受损部位相互渗透和缠结,从而完全修复受损涂层。
Self-healing coating with the ability to mark damaged locations, based on electrospun photothermal fibers and AIE agents
The anti-corrosion coatings based on core-sheath fibers prepared by electrospinning methods are developed for the indication and repair of large-scale damage to coatings. The cores are the composite fluorescent agents composed of AIE-gens and CHEF-gens, which exhibit strong fluorescence characteristics sensitive to corrosion due to the CHEF and FRET effects. The composite fluorescent agents provided information about the location of damages when the coatings, with the fibers as the core materials, are damaged. The sheaths are photothermal materials, composed of photothermal responsive acid doped polyaniline and shape memory polyurethane. The photothermal properties of acid doped polyaniline, under the irradiation of an infrared laser, contributes to heating in the damaged areas. The softened and activated polyurethane simultaneously lead to interpenetration and entanglement of molecular chains at the closed damage sites, resulting in complete repair of the damaged coatings.
期刊介绍:
Colloid and Interface Science Communications provides a forum for the highest visibility and rapid publication of short initial reports on new fundamental concepts, research findings, and topical applications at the forefront of the increasingly interdisciplinary area of colloid and interface science.
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