posted on 2023-05-10, 06:03authored byJi-Wei Shen, Ling Chen, Wang Dong, Dong-Mei Zeng, Yu-Ling Wang, Qing-Yan Liu
A pair of metal–organic frameworks (MOFs) of JXNU-15
(formulated
as [Co6(μ3-OH)6(BTB)2(BPY)3]n, BTB3– = benzene-1,3,5-tribenzoate and BPY = 4,4′-bipyridine) and
its fluorinated JXNU-15(F) ([Co6(μ3-OH)6(SFBTB)2(BPY)3]n) based on the fluorous 1,3,5-tri(3,5-bifluoro-4-carboxyphenyl)benzene
(SFBTB3–) ligands were presented. The detailed comparisons
of the acetylene/carbon dioxide (C2H2/CO2) separation abilities between the isostructural JXNU-15(F)
and JXNU-15 were presented. In comparison with the parent JXNU-15,
the higher C2H2 uptake, larger adsorption selectivity
of the C2H2/CO2 (50/50) mixture,
and enhanced C2H2/CO2 separation
performance endow JXNU-15(F) with highly efficient C2H2/CO2 separation performance, which is demonstrated
by singe-component gas adsorptions and dynamic gas mixture breakthrough
experiments. The fluorine substituents exert the crucial effects on
the enhanced C2H2/CO2 separation
ability of JXNU-15(F) and play the dominant role in the C2H2-framework interactions, as uncovered by computational
simulations. This work illustrates a powerful fluorine substitution
strategy for boosting C2H2/CO2 separation
ability for MOFs.