材料科学
白天
辐射冷却
光伏系统
耐久性
多孔性
环境友好型
辐射传输
被动冷却
多孔介质
电
纳米技术
热辐射
热舒适性
电子设备和系统的热管理
工程物理
机械工程
工艺工程
太阳能
高效能源利用
辐射热
热导率
太阳增益
热质量
节能
水冷
发电
辐射能
钥匙(锁)
热能
主动冷却
热的
复合材料
作者
Qiaoran Zhang,Xinfei Wang,Jie Chen,Boyuan Zhou,Xiaoyu Cao
标识
DOI:10.1021/acsami.5c13293
摘要
Passive daytime radiative cooling (PDRC) represents an environmentally friendly approach to sustainable cooling that operates without electricity, offering a greener alternative to traditional cooling methods. This technique achieves cooling passively by reflecting sunlight effectively and emitting thermal energy in the mid-infrared spectrum. Polymeric porous materials (PPMs), known for their superior mechanical durability and straightforward fabrication, have significantly propelled advancements in PDRC. This review examines the latest progress in PPMs designed for durable PDRC applications, emphasizing the importance of porous architectures and the link between their microstructural features and cooling efficiency. It begins by outlining methods for creating porous structures and detailing the surface characteristics of pores in these polymeric PDRC materials, which lay the groundwork for enhancing the PDRC effect. Next, it categorizes various types of polymeric porous PDRC materials and explores related uses, including building cooling, personal thermal management, photovoltaic cooling, and electricity generation. Finally, this review addresses key obstacles and prospects for PPMs in radiative cooling, offering insights to improve their real-world effectiveness and broaden their implementation.
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