Metafabrics for cooling under a scorching sun

Shuang Zhang

doi:10.1038/s41377-021-00669-5

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Metafabrics for cooling under a scorching sun

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- Metafabrics for cooling under a scorching sun
- Metafabrics for cooling under a scorching sun
- LSA 2021年10卷第11期页码：2024-2025
- Affiliations：
  
  1.Department of Physics, The University of Hong Kong, Pokfulam Road, Hong Kong, China
  2.Department of Electrical and Electronic Engineering, The University of Hong Kong, Pokfulam Road, Hong Kong, China
- Author bio：
  
  Shuang Zhang (shuzhang@hku.hk)
- Funds：
- DOI：10.1038/s41377-021-00669-5
  中图分类号：
- 纸质出版日期：2021-11-30，
  
  网络出版日期：2021-10-27，
- Accepted：
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Metafabrics for cooling under a scorching sun[J]. LSA, 2021,10(11):2024-2025.

Zhang, S. Metafabrics for cooling under a scorching sun. Light: Science & Applications, 10, 2024-2025 (2021).
Metafabrics for cooling under a scorching sun[J]. LSA, 2021,10(11):2024-2025. DOI： 10.1038/s41377-021-00669-5.

Zhang, S. Metafabrics for cooling under a scorching sun. Light: Science & Applications, 10, 2024-2025 (2021). DOI： 10.1038/s41377-021-00669-5.

摘要

Abstract

Engineering the spectral response of composite materials in a broad range from ultraviolet to infrared can lead to a significant passive cooling functionality. This principle is applied to the design of a novel type of metafabric for cooling the human body under direct sunlight. Besides cooling effect

the metafabric features other merits including superior mechanical and wetting properties.

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references

Shi, N. N. et al. Keeping cool: enhanced optical reflection and radiative heat dissipation in Saharan silver ants.Science349, 298–301 (2015)..

Raman, A. P. et al. Passive radiative cooling below ambient air temperature under direct sunlight.Nature515, 540–544 (2014)..

Zhai, Y. et al. Scalable-manufactured randomized glass-polymer hybrid metamaterial for daytime radiative cooling.Science355, 1062–1066 (2017)..

Mandal, J. et al. Paints as a scalable and effective radiative cooling technology for buildings.Joule4, 1350–1356 (2020)..

Xue, X. et al. Creating an eco‐friendly building coating with smart subambient radiative cooling.Adv. Sci.32, 1906751 (2020)..

Mandal, J. et al. Hierarchically porous polymer coatings for highly efficient passive daytime radiative cooling.Science362, 315–319 (2018)..

Li, T. et al. A radiative cooling structural material.Science364, 760–763 (2019)..

Hsu, P. C. et al. Radiative human body cooling by nanoporous polyethylene textile.Science353, 1019–1023 (2016)..

Zeng, S. N. et al. Hierarchical-morphology metafabric for scalable passive daytime radiative cooling.Science373, 692–696 (2021)..

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