Sandwich-Structured textiles with hierarchically nanofibrous network and Janus wettability for outdoor personal thermal and moisture management

[Display omitted] •A facile strategy was developed to promote outdoor personal cooling and drying.•Hierarchically nanofibrous network and Janus wettability were constructed.•Coatings can be applied with paint-like simplicity on commercial textiles.•Practical characterization showed a temperature dro...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2022-12, Vol.450, p.138012, Article 138012
Main Authors: Miao, Dongyang, Cheng, Ningbo, Wang, Xianfeng, Yu, Jianyong, Ding, Bin
Format: Article
Language:English
Subjects:
Directional water transport
Hierarchically nanofibrous network
Janus wettability
Spectral selectivity
Textiles
Thermal and moisture management
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Summary:[Display omitted] •A facile strategy was developed to promote outdoor personal cooling and drying.•Hierarchically nanofibrous network and Janus wettability were constructed.•Coatings can be applied with paint-like simplicity on commercial textiles.•Practical characterization showed a temperature drop of ∼ 4.2 °C.•The integrated thermal and moisture management ensured a minimum sweat consumption. As the interlayer between the skin and the environment, textiles play a vital role in achieving personal comfort and safety by managing the localized human body thermal and moisture conditions. However, intense exercise or sunlight exposure in hot and humid outdoor environments still leads to the accumulation of heat and excessive sweat on the human body. This reduces industrial labor productivity and results in economic losses. Herein, a sandwich-structured textile with a hierarchically nanofibrous network and Janus wettability is demonstrated. This textile exhibits excellent spectral selectivity (with a solar reflectance of 93.4% and a human body infrared emittance of 96.3%), rapid sweat evaporation rate (0.26 g h−1), and directional water transport property (a one-way transport index of 1140%). In a practical scenario, a human body covered by this sandwich-structured textile achieved a temperature drop of ∼ 4.2 °C compared with a commercial cotton textile. Through the integration of decent outdoor radiative cooling and continuous sweat wicking-drying properties, this sandwich-structured textile exhibits enhanced personal thermal and moisture management performance. Consequently, this textile leads to a significant reduction in human sweat consumption and excessive heat stress in outdoor environments.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2022.138012