用于水包油乳液分离的共价有机框架上的非氟化且坚固的超疏水改性

Non-Fluorinated and Robust Superhydrophobic Modification on Covalent Organic Framework for Crude-Oil-in-Water Emulsion Separation.

作者信息

Ruidas Santu, Das Avijit, Kumar Saurav, Dalapati Sasanka, Manna Uttam, Bhaumik Asim

机构信息

School of Materials Sciences, Indian Association for the Cultivation of Science, Jadavpur, Kolkata, 700032, India.

Department of Chemistry, Indian Institute of Technology-Guwahati, Kamrup, Assam, 781039, India.

出版信息

Angew Chem Int Ed Engl. 2022 Oct 10;61(41):e202210507. doi: 10.1002/anie.202210507. Epub 2022 Sep 1.

DOI:10.1002/anie.202210507

PMID:35972219

Abstract

Covalent organic frameworks (COFs) having high specific surface area, tunable pore size and high crystallinity are mostly post modified following fluorine-based and complex synthetic approaches to achieve a bio-inspired liquid wettability, i.e. superhydrophobicity. Herein, a facile, non-fluorinated and robust chemical approach is introduced for tailoring the water wettability of a new COF-which was prepared through Schiff-base condensation reaction. A silane precursor was readily reacted with selected alkyl acrylates through 1,4-conjugate addition reaction, prior to grafting on the prepared C4-COF for tailoring different water wettability-including robust superhydrophobicity. The superhydrophobic C4-COF (SH-C4-COF) that displayed significantly enhanced (>5 times; from 220 wt. % to 1156 wt. %) oil-absorption capacity, was extended to address the relevant challenges of "oil-in-water" emulsion separation, rapidly (<1 minute) and repetitively (50 times) at diverse and harsh conditions.

摘要

具有高比表面积、可调孔径和高结晶度的共价有机框架（COF）大多采用基于氟的复杂合成方法进行后修饰，以实现仿生液体润湿性，即超疏水性。在此，我们介绍一种简便、无氟且稳健的化学方法，用于调控一种通过席夫碱缩合反应制备的新型COF的水润湿性。在接枝到制备好的C4-COF上以调控不同的水润湿性（包括稳健的超疏水性）之前，硅烷前驱体通过1,4-共轭加成反应与选定的丙烯酸烷基酯轻松反应。展示出显著增强的（>5倍；从220 wt.% 提高到1156 wt.%）吸油能力的超疏水C4-COF（SH-C4-COF）被扩展用于应对“水包油”乳液分离在各种苛刻条件下的相关挑战，能够快速（<1分钟）且重复（50次）地进行分离。

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用于水包油乳液分离的共价有机框架上的非氟化且坚固的超疏水改性

Non-Fluorinated and Robust Superhydrophobic Modification on Covalent Organic Framework for Crude-Oil-in-Water Emulsion Separation.

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