用于膜蒸馏的共价有机框架中的亲水性梯度

Hydrophilicity gradient in covalent organic frameworks for membrane distillation.

作者信息

Zhao Shuang, Jiang Chenghao, Fan Jingcun, Hong Shanshan, Mei Pei, Yao Ruxin, Liu Yilin, Zhang Sule, Li Hui, Zhang Huaqian, Sun Chao, Guo Zhenbin, Shao Pengpeng, Zhu Yuhao, Zhang Jinwei, Guo Linshuo, Ma Yanhang, Zhang Jianqi, Feng Xiao, Wang Fengchao, Wu Hengan, Wang Bo

机构信息

Frontiers Science Center for High Energy Material, School of Chemistry and Chemical Engineering, Beijing Institute of Technology, Beijing, P. R. China.

Advanced Technology Research Institute (Jinan), Beijing Institute of Technology, Jinan, P. R. China.

出版信息

Nat Mater. 2021 Nov;20(11):1551-1558. doi: 10.1038/s41563-021-01052-w. Epub 2021 Jul 22.

DOI:10.1038/s41563-021-01052-w

PMID:34294883

Abstract

Desalination can help to alleviate the fresh-water crisis facing the world. Thermally driven membrane distillation is a promising way to purify water from a variety of saline and polluted sources by utilizing low-grade heat. However, membrane distillation membranes suffer from limited permeance and wetting owing to the lack of precise structural control. Here, we report a strategy to fabricate membrane distillation membranes composed of vertically aligned channels with a hydrophilicity gradient by engineering defects in covalent organic framework films by the removal of imine bonds. Such functional variation in individual channels enables a selective water transport pathway and a precise liquid-vapour phase change interface. In addition to having anti-fouling and anti-wetting capability, the covalent organic framework membrane on a supporting layer shows a flux of 600 l m h with 85 °C feed at 16 kPa absolute pressure, which is nearly triple that of the state-of-the-art membrane distillation membrane for desalination. Our results may promote the development of gradient membranes for molecular sieving.

摘要

海水淡化有助于缓解全球面临的淡水危机。热驱动膜蒸馏是一种利用低品位热能从各种含盐和受污染水源中净化水的有前景的方法。然而，由于缺乏精确的结构控制，膜蒸馏膜的渗透率和抗润湿性有限。在此，我们报告了一种通过去除亚胺键来制造共价有机框架膜中的工程缺陷，从而制备由具有亲水性梯度的垂直排列通道组成的膜蒸馏膜的策略。单个通道中的这种功能变化实现了选择性水传输途径和精确的液 - 汽相变界面。除了具有抗污染和抗润湿能力外，支撑层上的共价有机框架膜在绝对压力为16 kPa、进料温度为85°C时的通量为600 l m⁻² h⁻¹，这几乎是用于海水淡化的最先进膜蒸馏膜通量的三倍。我们的结果可能会促进用于分子筛分的梯度膜的发展。

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用于膜蒸馏的共价有机框架中的亲水性梯度

Hydrophilicity gradient in covalent organic frameworks for membrane distillation.

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