墨水池
材料科学
透射率
流变学
缩聚物
气凝胶
保温
热导率
溶胶凝胶
基础(拓扑)
热的
3D打印
聚合物
化学工程
复合材料
纳米技术
光电子学
物理
工程类
数学分析
气象学
图层(电子)
数学
作者
Meng-Yue Gao,Junyan Zhang,Chengjian Xu,Xiaoxiao Yu,Linfeng Chen,Junjie Zheng,Weiwei Zuo,Xinhai Zhang,Yanhua Cheng,Meifang Zhu
标识
DOI:10.1038/s41467-025-63356-8
摘要
Coupling superior thermal insulation performance with high transparency for solar transmission and excellent processability in aerogels is a challenging yet promising subject. Here, we report a direct ink writing strategy to create transparent polymethylsilsesquioxane (PMSQ) aerogels from gel inks with desired rheology, by merely using acid-base dual modulators to achieve "activation–retardation" of polycondensation reaction. The printed aerogels are pure PMSQ, have a transmittance of 97% in the visible-near infrared range, thermal conductivity (16.2 mW m−1 K−1) lower than that of still air, and low density (0.08 g cm−3). We demonstrate new possibilities of our 3D-printed transparent aerogels, such as device encapsulation for heat insulation and cylindrical cooling shields for lighting. Authors report a direct ink writing strategy to create transparent polymethylsilsesquioxane aerogels from gel inks with desired rheology, using acid-base dual modulators to achieve "activation–retardation" of polycondensation reaction.
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