用于个人热管理的具有双稳态热致变色和高效太阳-热特性的不对称 Janus 纤维

IF 17.2 1区 工程技术 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Fiber Materials Pub Date : 2024-01-09 DOI:10.1007/s42765-023-00346-9
Chengcheng Wang, Jilei Shi, Liping Zhang, Shaohai Fu
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引用次数: 0

摘要

鉴于绿色太阳能供热和储能的显著协同效应,智能纺织品中热致变色和多功能可穿戴加热器的引人注目的组合受到越来越多的关注。然而,由于颜色不相容和可编织性差,开发具有双稳态热致变色特性的织物以实现高效的太阳热能管理仍是一项具有挑战性的工作。在此,我们结合双稳态热致变色、光致变色和高效日热特性,构建了一种非对称 Janus(Janus A/B)纤维(BTCSJF),可同时显示两种颜色,并在收集太阳能的同时帮助储备能量。BTCSJF 充分利用了供体-受体电子转移、动态氢键和过冷等特性,能够快速切换颜色,具有出色的双稳态性,并能增强相变能量的存储性能。此外,由于 BTCSJF 能够捕获和储存太阳能,因此它的自加热温度比传统纤维高 35.6 ℃。这项研究概述了一种制造具有两种理论上不相容特性的编织纤维的方法,它对自供电集成双稳态变色和个人热管理应用具有广阔的前景。 图解 摘要 设计并制造了一种非对称 Janus 光吸收/双稳态热致变色纤维(BTCSJF),它可以将太阳能、相变能量存储以及双稳态热致和光致变色特性结合在一起。独特的 Janus 结构使其可以用作便携式加热器,刺激颜色变化,而不会因为暗色光热材料而遮盖颜色。同时,太阳能转换的热能可以储存起来,用于个人热管理。
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Asymmetric Janus Fibers with Bistable Thermochromic and Efficient Solar–Thermal Properties for Personal Thermal Management

The compelling combination of thermochromism and multifunctional wearable heaters in smart textiles has received increasing attention given the significant synergistic effect of green solar heat supply and energy storage. However, due to color incompatibility and poor knittability, developing fabrics with bistable thermochromic properties to achieve efficient solar–thermal management remains a challenging endeavor. Here, by combining bistable thermochromic, photochromic, and efficient solar–thermal properties, we constructed an asymmetric Janus (Janus A/B) fiber (BTCSJF) that can simultaneously display two colors and help with energy reserve while harvesting solar power. Benefiting greatly from donor–acceptor electron transfer, dynamic hydrogen bonding, and supercooling properties, BTCSJF displays a quick switch in color, excellent bistability, and enhanced performance in storing phase-change energy. In addition, BTCSJF can be self-heated by 35.6 °C higher than conventional fibers because it can capture and store solar energy. This research outlines a method to fabricate braided fibers with two theoretically incompatible properties that have promising implications for self-powered integrated bistable color-changing and personal thermal management applications.

Graphical Abstract

An asymmetric Janus light absorbent/bistable thermochromic fiber (BTCSJF) was designed and fabricated, which can combine solar energy, phase-change energy storage, and bistable thermo- and photochromic properties. The unique Janus structure allows it to be used as a portable heater to stimulate color changes without obscuring color due to dark photothermal materials. Meanwhile, the heat energy converted by solar energy can be stored for personal thermal management.

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来源期刊
CiteScore
18.70
自引率
11.20%
发文量
109
期刊介绍: Advanced Fiber Materials is a hybrid, peer-reviewed, international and interdisciplinary research journal which aims to publish the most important papers in fibers and fiber-related devices as well as their applications.Indexed by SCIE, EI, Scopus et al. Publishing on fiber or fiber-related materials, technology, engineering and application.
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