无源辐射冷却光子结构设计

光子辐射冷却是一种被动冷却技术，它利用光子学原理通过发射红外辐射来散热。该方法涉及设计具有特定光学特性的材料或结构，能够在特定波长（通常为中红外范围）直接向外太空辐射热能。通过优化，使得这些材料在大气透明窗口（8-13微米）内具有高发射率，同时在太阳光谱中具有低吸收率，就能够在不消耗能源的情况下实现低于环境温度的冷却效果。光子辐射冷却在建筑节能、户外设备冷却甚至光伏电池的热管理方面有着广阔的应用前景。

这些研究在建筑、能源、可持续性以及美学需求相关的应用中具有潜力 (Wu et al., 2017; Wu* & Chen, 2020)。

用于个人便携式电子设备的辐射冷却性能。

该项目目前处于非活跃状态。我们希望在未来有进一步发展的机会。

2020

Broadband radiative cooling and decoration for passively dissipated portable electronic devices by aperiodic photonic multilayers

Jiaye Wu^*, and Yuxuan Chen

Annalen der Physik, May 2020

DOI Bib HTML

@article{Wu2020d,
  title = {Broadband radiative cooling and decoration for passively dissipated portable electronic devices by aperiodic photonic multilayers},
  author = {Wu, Jiaye and Chen, Yuxuan},
  year = {2020},
  month = may,
  journal = {Annalen der Physik},
  volume = {532},
  number = {5},
  pages = {2000001},
  issn = {0003-3804},
  doi = {10.1002/andp.202000001},
  lccn = {4},
  dimensions = {true},
}

2017

Diurnal cooling for continuous thermal sources under direct subtropical sunlight produced by quasi-cantor structure

Jia-Ye Wu, Yuan-Zhi Gong , Pei-Ran Huang, Gen-Jun Ma, and Qiao-Feng Dai^*

Chinese Physics B, Sep 2017

Editors’ Selection DOI Bib HTML

Editors’ Selection in Oct. 2017

@article{Wu2017a,
  title = {Diurnal cooling for continuous thermal sources under direct subtropical sunlight produced by quasi-cantor structure},
  author = {Wu, Jia-Ye and Gong, Yuan-Zhi and Huang, Pei-Ran and Ma, Gen-Jun and Dai, Qiao-Feng},
  year = {2017},
  month = sep,
  journal = {Chinese Physics B},
  volume = {26},
  number = {10},
  pages = {104201},
  issn = {1674-1056},
  doi = {10.1088/1674-1056/26/10/104201},
  lccn = {4},
  dimensions = {true},
}

相关成果

2020

2017