Superelastic and superflexible cellulose aerogels for thermal insulation and oil/water separation

气凝胶 材料科学 化学工程 保温 热导率 吸附 复合材料 有机化学 化学 图层(电子) 工程类
作者
Weikang Ke,Fang Ge,Xiaolong Shi,Yutao Zhang,Tianyu Wu,Zhu Xi,Ya-Ming Cheng,Yiqian Shi,Zhongkai Wang,Liang Yuan,Youxian Yan
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:260: 129245-129245 被引量:11
标识
DOI:10.1016/j.ijbiomac.2024.129245
摘要

Aerogels with low thermal conductivity and high adsorption capacity present a promising solution to curb water pollution caused by organic reagents as well as mitigate heat loss. Although aerogels exhibiting good adsorption capacity and thermal insulation have been reported, materials with mechanical integrity, high flexibility and shear resistance still pose a formidable task. Here, we produced bacterial cellulose-based ultralight multifunctional hybrid aerogels by using freeze-drying followed by chemical vapor deposition silylation method. The hybrid aerogels displayed a low density of 10–15 mg/cm3, high porosity exceeding 99.1 %, low thermal conductivity (27.3–29.2 mW/m.K) and superior hydrophobicity (water contact angle>120o). They also exhibited excellent mechanical properties including superelasticity, high flexibility and shear resistance. The hybrid aerogels demonstrated high heat shielding efficiency when used as an insulating material. As a selective oil absorbent, the hybrid aerogels exhibit a maximum adsorption capacity of up to approximately 156 times its own weight and excellent recoverability. Especially, the aerogel's highly accessible porous microstructure results in an impressive flux rate of up to 162 L/h.g when used as a filter in a continuous oil-water separator to isolate n-hexane-water mixtures. This work presents a novel endeavor to create high-performance, sustainable, reusable, and adaptable multifunctional aerogels.
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