发射率
材料科学
调制(音乐)
低发射率
白天
红外线的
镜面反射
光电子学
反射率
光学
声学
大气科学
物理
作者
Yiwei Zhou,Huanzheng Zhu,Bing Qin,Rui Qin,Yining Zhu,Min Qiu,Qiang Li
标识
DOI:10.1002/adom.202500621
摘要
Abstract Passive thermoregulators enabling zero‐energy temperature regulation hold immense potential for sustainable thermal management. While existing thermoregulators struggle with conflicting daytime reflectivity modulation and nighttime insulation requirements, a dynamic spectral modulation thermoregulator through the synergistic integration of low‐emissivity films, thermochromic components, and specular reflectors is proposed. The thermoregulator achieves high visible reflectivity modulation (ΔR = 0.29–0.42 for red, blue, green, and black), high near‐infrared reflectivity (0.90), and low mid‐infrared emissivity (0.05). Field tests revealed that the visible reflectivity modulation drives a daytime temperature reduction of 5.1 and 1.5 °C compared to black low‐ and high‐emissivity references, respectively. Furthermore, the nighttime thermal insulation sustains a 2.4 °C thermal warmer than conventional high‐emissivity devices. When stabilizing room temperature at 28 °C, the thermoregulator achieves cooling power savings of 37.34 and 40.50 against low‐ and high‐emissivity references, respectively. The easily fabricated thermoregulator offers a promising solution for passive temperature control and energy saving.
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