Putting an ultrahigh concentration of amine groups into a metal-organic framework for CO capture at low pressures

Tremendous efforts have been devoted to increasing the CO 2 capture performance of porous materials, especially for low CO 2 concentration environments. Here, we report that hydrazine can be used as a diamine short enough to functionalize the small-pore metal-organic framework [Mg 2 (dobdc)] (H 4 do...

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Veröffentlicht in:	Chemical science (Cambridge) 2016-09, Vol.7 (1), p.6528-6533
Hauptverfasser:	Liao, Pei-Qin, Chen, Xun-Wei, Liu, Si-Yang, Li, Xu-Yu, Xu, Yan-Tong, Tang, Minni, Rui, Zebao, Ji, Hongbing, Zhang, Jie-Peng, Chen, Xiao-Ming
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creator	Liao, Pei-Qin Chen, Xun-Wei Liu, Si-Yang Li, Xu-Yu Xu, Yan-Tong Tang, Minni Rui, Zebao Ji, Hongbing Zhang, Jie-Peng Chen, Xiao-Ming
description	Tremendous efforts have been devoted to increasing the CO 2 capture performance of porous materials, especially for low CO 2 concentration environments. Here, we report that hydrazine can be used as a diamine short enough to functionalize the small-pore metal-organic framework [Mg 2 (dobdc)] (H 4 dobdc = 2,5-dihydroxyl-1,4-benzenedicarboxylic acid). By virtue of the ultrahigh concentration of free amine groups (6.01 mmol g −1 or 7.08 mmol cm −3 ) capable of reversible carbamic acid formation, the new material [Mg 2 (dobdc)(N 2 H 4 ) 1.8 ] achieves a series of new records for CO 2 capture, such as single-component isotherm uptakes of 3.89 mmol g −1 or 4.58 mmol cm −3 at the atmospheric CO 2 concentration of 0.4 mbar at 298 K and 1.04 mmol g −1 or 1.22 mmol cm −3 at 328 K, as well as more than a 4.2 mmol g −1 or 4.9 mmol cm −3 adsorption/desorption working capacity under dynamic mixed-gas conditions with CO 2 concentrations similar to those in flue gases and ambient air. Hydrazine can be grafted in CPO-27-Mg/MOF-74-Mg to provide an ultrahigh concentration of amine groups on the pore surface, giving an exceptionally high CO 2 capture performance, especially at extremely low pressures.
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