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Green Synthesis of Ant Nest-Inspired Superelastic Silicone Aerogels
Department环境材料与生态化学研究发展中心
Hu T(胡涛)1; Li LX(李凌霄)1,2; Zhang JP(张俊平)1
The second department甘肃省黏土矿物应用研究重点实验室
2018-08-06
Source PublicationACS sustainable Chemistry & Engineering
Volume6Issue:9Pages:11222–11227
Abstract

Green synthesis of aerogels with high mechanical properties has long
remained a big challenge ever since Kistler’s report in 1931. Inspired by ant nests, we report a green method to synthesize strong, superelastic and flexible silicone aerogels. The aerogels are prepared by hydrolytic condensation of silanes with trace amounts of catalyst and surfactant (0.094 mmol mol−1) followed by drying the hydrogels at ambient pressure. The aerogels can quickly recover their original shape
after repeated compression and bending. The aerogels can be functionalized via their Si−OH or vinyl groups for specific purposes. We also extend the method for forming aerogel coatings on diverse types of materials. Our study demonstrates that green synthesis of superelastic aerogels is feasible and bioinspiration is an efficient strategy.

KeywordAerogel Surface Chemistry Silanes Elasticity Bioinspiration
DOI10.1021/acssuschemeng.8b03141
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Indexed BySCIE
If6.140
Language英语
compositor第一作者单位
Citation statistics
Cited Times:22[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
Identifierhttp://ir.licp.cn/handle/362003/24381
Collection中国科学院兰州化学物理研究所
环境材料与生态化学研究发展中心
甘肃省黏土矿物应用研究重点实验室
Corresponding AuthorZhang JP(张俊平)
Affiliation1.中国科学院兰州化学物理研究所,生态材料与绿色化学发展中心
2.中国科学院大学
Corresponding Author AffilicationLanzhou Institute of Chemical Physics,Chinese Academy of Sciences
Recommended Citation
GB/T 7714		 Hu T,Li LX,Zhang JP. Green Synthesis of Ant Nest-Inspired Superelastic Silicone Aerogels[J]. ACS sustainable Chemistry & Engineering,2018,6(9):11222–11227.
APA Hu T,Li LX,&Zhang JP.(2018).Green Synthesis of Ant Nest-Inspired Superelastic Silicone Aerogels.ACS sustainable Chemistry & Engineering,6(9),11222–11227.
MLA Hu T,et al."Green Synthesis of Ant Nest-Inspired Superelastic Silicone Aerogels".ACS sustainable Chemistry & Engineering 6.9(2018):11222–11227.
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