用于太阳能热制清洁水的基于金属有机框架的分层结构

MOF-Based Hierarchical Structures for Solar-Thermal Clean Water Production.

作者信息

Ma Qinglang, Yin Pengfei, Zhao Meiting, Luo Zhiyong, Huang Ying, He Qiyuan, Yu Yifu, Liu Zhengqing, Hu Zhaoning, Chen Bo, Zhang Hua

机构信息

Center for Programmable Materials, School of Materials Science and Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore, 639798, Singapore.

Department of Chemistry, School of Science, Tianjin University, Tianjin, 300072, P. R. China.

出版信息

Adv Mater. 2019 Apr;31(17):e1808249. doi: 10.1002/adma.201808249. Epub 2019 Mar 11.

DOI:10.1002/adma.201808249

PMID:30856299

Abstract

Solar-thermal water evaporation, as a promising method for clean water production, has attracted increasing attention. However, solar water evaporators that exhibit both high water vapor generation ability and anti-oil-fouling ability have not been reported. Here, a unique metal-organic-framework-based hierarchical structure, referred to as MOF-based hierarchical structure (MHS), is rationally designed and prepared, which simultaneously displays a high solar absorption and a superhydrophilic and underwater superoleophobic surface property. As a proof-of-concept application, a device prepared from the MHS can achieve a high solar-thermal water evaporation rate of 1.50 kg m h under 1 sun illumination. Importantly, the MHS also possesses an excellent anti-oil-fouling property, ensuring its superior water evaporation performance even in oil-contaminated water. The high solar-thermal water evaporation rate and anti-oil-fouling property make the MHS a promising material for the solar-thermal water production.

摘要

作为一种颇具前景的清洁水生产方法，太阳能热水蒸发已引起越来越多的关注。然而，兼具高水蒸气产生能力和抗油污能力的太阳能水蒸发器尚未见报道。在此，我们合理设计并制备了一种独特的基于金属有机框架的分级结构，即基于金属有机框架的分级结构（MHS），它同时具有高太阳能吸收率以及超亲水和水下超疏油的表面特性。作为概念验证应用，由MHS制备的装置在1个太阳光照下可实现1.50 kg m⁻² h⁻¹的高太阳能热水蒸发速率。重要的是，MHS还具有出色的抗油污性能，即使在受油污染的水中也能确保其卓越的水蒸发性能。高太阳能热水蒸发速率和抗油污性能使MHS成为太阳能热水生产的一种有前途的材料。

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用于太阳能热制清洁水的基于金属有机框架的分层结构

MOF-Based Hierarchical Structures for Solar-Thermal Clean Water Production.

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