Chlorine-functionalized keto-enamine-based covalent organic frameworks for CO2 separation and capture

Digambar B. Shinde; Mayur Ostwal; Xinbo Wang; Amol M. Hengne; Yang Liu; Guan Sheng; Kuo Wei Huang; Zhiping Lai

Journal Article

Chlorine-functionalized keto-enamine-based covalent organic frameworks for CO2 separation and capture

CrystEngComm (2018) 20(47) 7621-7625

DOI: 10.1039/c8ce01397g

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Abstract

We report highly chemically and thermally stable chlorine-functionalized CAA-COF-1 and CAA-COF-2. The chlorine-functionalized COFs exhibited enhanced CO2 uptake (by ∼28-44%) in comparison with their pristine COF analogues (TpPa-1 and TpBd). Column breakthrough experiments reveal that CAA-COF-1 and CAA-COF-2 display a high CO2/N2 (10/90) gas mixture selectivity of 95 and 54, respectively. Additionally, CAA-COF-1 exhibits a CO2/CH4 (10/90) column breakthrough selectivity of 29.

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Shinde, D. B., Ostwal, M., Wang, X., Hengne, A. M., Liu, Y., Sheng, G., … Lai, Z. (2018). Chlorine-functionalized keto-enamine-based covalent organic frameworks for CO2 separation and capture. CrystEngComm, 20(47), 7621–7625. https://doi.org/10.1039/c8ce01397g

Chlorine-functionalized keto-enamine-based covalent organic frameworks for CO2 separation and capture

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