气凝胶
材料科学
润湿
蒸发
超亲水性
海水淡化
蒸发器
化学工程
纤维素
复合材料
纳米技术
化学
机械工程
热交换器
物理
工程类
热力学
生物化学
膜
作者
Chengjian Xu,Mengyue Gao,Xiaoxiao Yu,Junyan Zhang,Yanhua Cheng,Meifang Zhu
标识
DOI:10.1007/s40820-023-01034-4
摘要
Solar-driven interfacial evaporation is an emerging technology for water desalination. Generally, double-layered structure with separate surface wettability properties is usually employed for evaporator construction. However, creating materials with tunable properties is a great challenge because the wettability of existing materials is usually monotonous. Herein, we report vinyltrimethoxysilane as a single molecular unit to hybrid with bacterial cellulose (BC) fibrous network, which can be built into robust aerogel with entirely distinct wettability through controlling assembly pathways. Siloxane groups or carbon atoms are exposed on the surface of BC nanofibers, resulting in either superhydrophilic or superhydrophobic aerogels. With this special property, single component-modified aerogels could be integrated into a double-layered evaporator for water desalination. Under 1 sun, our evaporator achieves high water evaporation rates of 1.91 and 4.20 kg m-2 h-1 under laboratory and outdoor solar conditions, respectively. Moreover, this aerogel evaporator shows unprecedented lightweight, structural robustness, long-term stability under extreme conditions, and excellent salt-resistance, highlighting the advantages in synthesis of aerogel materials from the single molecular unit.
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