Issue 13, 2018

A highly porous acylamide decorated MOF-505 analogue exhibiting high and selective CO2 gas uptake capability

Abstract

Porous metal–organic frameworks (MOFs) constructed from organic linkers and metal ions/clusters can provide special pore environments for selective CO2 capture. In this work, we designed and synthesized a highly porous acylamide-functionalized MOF (HNUST-7) from a nanosized linear diisophthalate ligand with linking acylamide groups and Cu(II)-paddlewheel clusters. Structural analysis shows that HNUST-7 possesses a (4,4)-connected NbO-type 3D open framework incorporating two different types of metal–organic cages. After activation, HNUST-7 displays a high BET surface area of 2804 m2 g−1 and large CO2 uptakes of 26.1 and 19.4 mmol g−1 under 30 bar at 273 and 298 K, respectively. In addition, with the optimized pores and functional sites (open copper sites and Lewis basic acylamide groups) integrated within the framework, HNUST-7 exhibits highly selective adsorption of CO2 over CH4 and N2 under ambient conditions, which have been verified by both single compound gas sorption measurements and dynamic column breakthrough experiments.

Graphical abstract: A highly porous acylamide decorated MOF-505 analogue exhibiting high and selective CO2 gas uptake capability

Supplementary files

Article information

Article type
Paper
Submitted
24 Jan 2018
Accepted
11 Feb 2018
First published
12 Feb 2018

CrystEngComm, 2018,20, 1874-1881

A highly porous acylamide decorated MOF-505 analogue exhibiting high and selective CO2 gas uptake capability

B. Zheng, L. Huang, X. Cao, S. Shen, H. Cao, C. Hang, W. Zeng and Z. Wang, CrystEngComm, 2018, 20, 1874 DOI: 10.1039/C8CE00103K

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