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6937897 
Journal Article 
Metal-Organic Frameworks for the Adsorptive Removal of Gaseous Aliphatic Ketones 
Vikrant, K; Kim, KiH; Kumar, S; Boukhvalov, DW; , 
2020 
ACS Applied Materials & Interfaces
ISSN: 1944-8244
EISSN: 1944-8252 
AMER CHEMICAL SOC 
WASHINGTON 
12 
10317-10331 
English 
32041396 
WOS:000518702300024 
Recent research endeavors have established metal-organic frameworks (MOFs) as suitable platforms for the adsorptive removal of various environmental pollutants. In this regard, the sorptive performances of four MOFs (MOF-199, UiO-66, UiO-66-NH2, and Co-CUK-1) were investigated against two gaseous aliphatic ketones (methyl ethyl ketone (MEK) and methyl isobutyl ketone (MiBK)) at a low partial pressure (0.1 Pa). Activated carbon was utilized as a reference commercial sorbent. The 10% breakthrough volume (BTV10) values for MEK decreased in the following order: MOF-199 (4772 L atm g(-1)) > activated carbon (224 L atm g(-1)) > UiO-66-NH2 (106 L atm g(-1)) > UiO-66 (53 L atm g(-1)) > Co-CUK-1 (16 L atm g(-1)). In case of MiBK, the relative ordering in BTV10 was consistently maintained while showing noticeable increases in its magnitude: MOF-199 (7659 L atm g(-1)) > activated carbon (816 L atm g(-1)) > UiO-66-NH2 (304 L atm g(-1)) > UiO-66 (150 L atm g(-1)) > Co-CUK-1 (31 L atm g(-1)). The superiority of MOF-199 was confirmed toward the adsorptive removal of gaseous aliphatic ketones. For a binary mixture of ketones, the BTV10 values of MOF-199 were reduced considerably for MEK and MiBK (in comparison to single component sorption) such as 1579 and 3969 L atm g(-1), respectively, reflecting competitive inhibition of the adsorption process. Theoretical simulations based on density functional theory (DFT) elucidated the involvement of highly favorable coordination between the carbonyl group present in ketone molecules and the uncoordinated Cu(II) sites in the MOF-199 structure (Lewis acidic centers). Interestingly, MOF-199 maintained appreciable performance toward the mixture of ketones up to 5 cycles to support its practical merit. 
adsorption; air pollution; functionalized adsorbent; ketones; metal-organic frameworks