Journal Article10.1039/C9TA06325K
Post-synthesis of a covalent organic framework nanofiltration membrane for highly efficient water treatment
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TL;DR: In this paper, a stable covalent organic framework (COF) IISERP-COOH-COF1 membrane with high ion rejection and relatively high water flux is presented.
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Abstract: Nanofiltration (NF) membranes with ultrahigh water flux and high ion rejection are substantially beneficial for desalination and wastewater treatment. However, synthesis of NF membranes with high water permeance while maintaining high ion rejection remains a great challenge. Herein, we report a highly stable covalent organic framework (COF) IISERP-COOH-COF1 membrane with high ion rejection and relatively high water flux. Through post-modification, the pore aperture of the IISERP-COOH-COF1 membrane can be constricted, thus preventing ions from accessing the pores. Further, covalent post-functionalization is helpful to reduce non-selective transport through invisible intercrystalline defects, thus enhancing salt rejection. Demonstrated by both experimental and simulation studies, the IISERP-COOH-COF1 membrane shows superior ion rejection (e.g., 96.3% for Na2SO4, 97.2% for MgSO4, 99.6% for FeCl3, 90.6% for MgCl2, and 82.9% for NaCl) based on size exclusion, with a water flux above 0.5 L m−2 h−1 bar−1.
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Adrien P. Côté,Annabelle I. Benin,Nathan W. Ockwig,Michael O'Keeffe,Adam J. Matzger,Omar M. Yaghi +5 more
TL;DR: Covalent organic frameworks (COFs) have been designed and successfully synthesized by condensation reactions of phenyl diboronic acid and hexahydroxytriphenylene to form rigid porous architectures with pore sizes ranging from 7 to 27 angstroms.
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TL;DR: The possible reductions in energy demand by state-of-the-art seawater Desalination technologies, the potential role of advanced materials and innovative technologies in improving performance, and the sustainability of desalination as a technological solution to global water shortages are reviewed.
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Four billion people facing severe water scarcity
TL;DR: It is found that two-thirds of the global population (4.0 billion people) live under conditions of severe water scarcity at least 1 month of the year, and nearly half of those people live in India and China.
Porous, Crystalline, Covalent Organic Frameworks
Adrien P. Côté,Annabelle I. Benin,Nathan W. Ockwig,Michael O'Keeffe,Adam J. Matzger,Omar M. Yaghi +5 more
TL;DR: In this article, powder x-ray diffraction studies of the highly crystalline products (C3H2BO)6 (C9H12)1 (COF-1) and C9H4BO2 (CF-5) revealed expanded porous graphitic layers that are either staggered or eclipsed.
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