涂层
材料科学
润湿
发射率
丙烯酸酯
乳状液
环境友好型
相容性(地球化学)
防水剂
聚合
复合材料
光伏系统
乳液聚合
超疏水涂料
低发射率
吸水率
红外线的
化学工程
表面工程
吸收(声学)
聚合物
接触角
工艺工程
纳米技术
光学涂层
作者
Yueyan Liang,Wantong Lin,Xiubin Xu,Linjie Wei,Yintong Lin,Jiahui Tang,Jianwei Liu,Wenqi Kuang,Xu Wu,Xiaoqiang Chen,Xiaojun Peng
摘要
Abstract The optically transparent, dynamic repellent coating effectively prevents the wetting of water and oily liquids on surfaces that are highly desirable but still challenging to integrate the characteristics of environmental friendliness and application adaptability. In this study, an environmentally friendly process combining silicone‐modified acrylate emulsion polymerization with silica sol was employed to develop an organic–inorganic dual‐continuous water‐based coating. The coating demonstrates anti‐smudge, high transparency, and cooling functionalities. It ensures that various liquids slide off the surface without leaving residues, showcasing superior anti‐smudge performance. Additionally, it exhibits excellent durability, chemical stability, and compatibility with diverse substrates. Based on molecular infrared absorption characteristics, this coating achieves emissivity rates of 88.56% and 87.52% in the two atmospheric transparent windows. Outdoor verification experiments conducted under intense sunlight, along with application tests on solar panels, indicate average cooling performances of 5.5 and 3°C. This coating exhibits significant potential for application in architectural glass and photovoltaic panels.
科研通智能强力驱动
Strongly Powered by AbleSci AI