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Continuous Sandwiched Film Containing Oriented ZnO@HDPE Microfiber for Passive Radiative Cooling

Recently, passive radiative cooling (PRC) that realizes thermal management without consuming any energy has attracted increasing attention. However, few studies focus on low‐cost and robust PRC film fabricated by a facile and environmentally friendly method. In this study, via coextrusion blow film...

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Published in:	Advanced functional materials 2024-07, Vol.34 (28), p.n/a
Main Authors:	Peng, Fei, Ren, Kunlun, Zheng, Guoqiang, Dai, Kun, Gao, Chaojun, Liu, Chuntai, Shen, Changyu
Format:	Article
Language:	English
Subjects:	Abrasion resistance Coextrusion coextrusion blow film molding Cooling High density polyethylenes Leaching low cost Mechanical properties Microfibers passive radiative cooling Polymer films Robustness sandwiched PRC film Thermal management Transmittance Zinc oxide “structuring” processing
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creator	Peng, Fei Ren, Kunlun Zheng, Guoqiang Dai, Kun Gao, Chaojun Liu, Chuntai Shen, Changyu
description	Recently, passive radiative cooling (PRC) that realizes thermal management without consuming any energy has attracted increasing attention. However, few studies focus on low‐cost and robust PRC film fabricated by a facile and environmentally friendly method. In this study, via coextrusion blow film molding and water leaching, sandwiched PRC film (SPRCF) is efficiently prepared, and its skin and core layer are respectively high‐density polyethylene (HDPE) film and oriented ZnO@HDPE microfiber layer. Of note, such a sandwiched structure enables SPRCF to possess remarkable mechanical properties, abrasion, and weather resistance. Moreover, with the introduction of ZnO, SPRCF shows lower sunlight transmittance (≈3.8%) but higher mid‐infrared transmittance (≈88.8%), endowing it with remarkable PRC performance (the maximum cooling power of daytime and nighttime are respectively 73.8 and 96.7 W m−2). Furthermore, the decent self‐cleaning performance of SPRCF‐45 endows it with maintenance‐free features outdoors. This work proposes a facile and environmentally friendly method for preparing low‐cost and robust SPRCF, opening a new pathway to develop PRC film following the concept of polymer “structuring” processing. Via coextrusion blow film molding and water leaching, sandwiched PRC film (SPRCF) is efficiently prepared, whose skin and core layer are respectively high‐density polyethylene (HDPE) film and oriented ZnO@HDPE microfiber layer. Moreover, SPRCF shows low sunlight transmittance (≈3.8%) but high mid‐infrared transmittance (≈88.8%), endowing it with remarkable PRC performance.
doi_str_mv	10.1002/adfm.202400221
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However, few studies focus on low‐cost and robust PRC film fabricated by a facile and environmentally friendly method. In this study, via coextrusion blow film molding and water leaching, sandwiched PRC film (SPRCF) is efficiently prepared, and its skin and core layer are respectively high‐density polyethylene (HDPE) film and oriented ZnO@HDPE microfiber layer. Of note, such a sandwiched structure enables SPRCF to possess remarkable mechanical properties, abrasion, and weather resistance. Moreover, with the introduction of ZnO, SPRCF shows lower sunlight transmittance (≈3.8%) but higher mid‐infrared transmittance (≈88.8%), endowing it with remarkable PRC performance (the maximum cooling power of daytime and nighttime are respectively 73.8 and 96.7 W m−2). Furthermore, the decent self‐cleaning performance of SPRCF‐45 endows it with maintenance‐free features outdoors. 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subjects	Abrasion resistance Coextrusion coextrusion blow film molding Cooling High density polyethylenes Leaching low cost Mechanical properties Microfibers passive radiative cooling Polymer films Robustness sandwiched PRC film Thermal management Transmittance Zinc oxide “structuring” processing
title	Continuous Sandwiched Film Containing Oriented ZnO@HDPE Microfiber for Passive Radiative Cooling
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