Polyamide 6-Al2O3 nanoparticle composite nanofiber membranes with high solar reflectivity and human radiation transmittance for passive human body cooling

IF 6.3 2区材料科学 Q2 ENERGY & FUELS

Solar Energy Materials and Solar Cells Pub Date : 2024-11-07 DOI:10.1016/j.solmat.2024.113270

Mengyao Han , Song Ren , Can Ge , Jian Fang , Hongxia Wang , Tong Lin

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引用次数: 0

Abstract

Passive radiant heat management is an energy-saving thermal radiation management technology that can improve the temperature regulation of conventional clothing in high-temperature environments. However, existing materials are either complex in structure, difficult to fabricate, or unsuitable for human application. In this study, a novel nanofiber membrane was developed that exhibits high solar reflectance and infrared transparency to human radiation, thus having an excellent radiative cooling effect. The nanofiber membrane was prepared by electrospinning polyamide (PA) 6 containing Al₂O₃ nanoparticles. It exhibits an average solar radiation reflectance of about 88 %, a maximum reflectance of more than 95 %, and transmittance to the human body infrared of more than 95 % and provides a cooling effect of 4–6.4 °C for outdoor objects (with convection), which results from the coaction of PA6 nanofibers and Al₂O₃ nanoparticles. The implementation of nanofiber membranes in clothing could not only protect wearers from high outdoor temperatures but also improve air and moisture permeability. We hope that this unique nanofiber membrane will be useful for managing thermal comfort and energy efficiency in various applications ranging from architectural materials to personal cooling solutions.

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具有高太阳反射率和人体辐射透过率的聚酰胺 6-Al2O3 纳米粒子复合纳米纤维膜，用于人体被动冷却

被动辐射热管理是一种节能的热辐射管理技术，可以改善高温环境下传统服装的温度调节。然而，现有材料要么结构复杂、难以制造，要么不适合人体应用。本研究开发了一种新型纳米纤维膜，它对太阳辐射有很高的反射率，对人体辐射有很高的红外透射率，因此具有很好的辐射冷却效果。这种纳米纤维膜是通过电纺含有 Al2O3 纳米颗粒的聚酰胺（PA）6 制备而成的。它对太阳辐射的平均反射率约为 88%，最大反射率超过 95%，对人体红外线的透射率超过 95%，并能为室外物体提供 4-6.4 °C 的冷却效果（带对流），这是 PA6 纳米纤维和 Al2O3 纳米粒子共同作用的结果。在服装中使用纳米纤维膜不仅能保护穿着者免受室外高温的影响，还能改善透气性和透湿性。我们希望这种独特的纳米纤维膜将有助于管理从建筑材料到个人冷却解决方案等各种应用中的热舒适度和能效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Solar Energy Materials and Solar Cells 工程技术-材料科学：综合

CiteScore

12.60

自引率

11.60%

发文量

513

审稿时长

47 days

期刊介绍： Solar Energy Materials & Solar Cells is intended as a vehicle for the dissemination of research results on materials science and technology related to photovoltaic, photothermal and photoelectrochemical solar energy conversion. Materials science is taken in the broadest possible sense and encompasses physics, chemistry, optics, materials fabrication and analysis for all types of materials.