一种具有可修饰孔道的高度有序的纳米多孔二维共价有机框架及其在水净化和离子筛分中的应用。

A Highly Ordered Nanoporous, Two-Dimensional Covalent Organic Framework with Modifiable Pores, and Its Application in Water Purification and Ion Sieving.

作者信息

Kuehl Valerie A, Yin Jiashi, Duong Phuoc H H, Mastorovich Bruce, Newell Brian, Li-Oakey Katie Dongmei, Parkinson Bruce A, Hoberg John O

机构信息

Central Instrument Facility , Colorado State University , Fort Collins , Colorado 80523 , United States.

出版信息

J Am Chem Soc. 2018 Dec 26;140(51):18200-18207. doi: 10.1021/jacs.8b11482. Epub 2018 Dec 12.

DOI:10.1021/jacs.8b11482

PMID:30512941

Abstract

The preparation of membranes with high selectivity based on specific chemical properties such as size and charge would impact the efficiency of the world's energy supply, the production of clean water, and many other separation technologies. We report a flexible synthetic protocol for preparing highly ordered two-dimensional nanoporous polymeric materials (termed covalent organic frameworks or COFs) that allow for placing virtually any function group within the nanopores. We demonstrate that membranes, fabricated with this new family of materials with carboxylated pore walls, are very water permeable, as well as highly charged and size selective.

摘要

基于尺寸和电荷等特定化学性质制备具有高选择性的膜，将影响全球能源供应效率、清洁水生产以及许多其他分离技术。我们报告了一种灵活的合成方案，用于制备高度有序的二维纳米多孔聚合物材料（称为共价有机框架或COF），该材料允许在纳米孔内放置几乎任何官能团。我们证明，用这种具有羧基化孔壁的新型材料制成的膜具有很高的透水性，以及高电荷和尺寸选择性。

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一种具有可修饰孔道的高度有序的纳米多孔二维共价有机框架及其在水净化和离子筛分中的应用。

A Highly Ordered Nanoporous, Two-Dimensional Covalent Organic Framework with Modifiable Pores, and Its Application in Water Purification and Ion Sieving.

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