A UiO-66 analogue with uncoordinated carboxylic acids for the broad-spectrum removal of toxic chemicals
New Journal of Chemistry, 2015•pubs.rsc.org
Zirconium-based metal–organic frameworks (MOFs) are of great importance as sorbents
due to their increased chemical and thermal stability when compared to other MOF families.
Here we report a novel analogue of UiO-66 modified with oxalic acid via solvent-assisted
ligand incorporation. This analogue has the ability to remove ammonia, cyanogen chloride,
sulphur dioxide, nitrogen dioxide and octane at levels greater than or equal to the base UiO-
66. We report here the highest known capacities exhibited by a MOF for SO2 and NO2, at …
due to their increased chemical and thermal stability when compared to other MOF families.
Here we report a novel analogue of UiO-66 modified with oxalic acid via solvent-assisted
ligand incorporation. This analogue has the ability to remove ammonia, cyanogen chloride,
sulphur dioxide, nitrogen dioxide and octane at levels greater than or equal to the base UiO-
66. We report here the highest known capacities exhibited by a MOF for SO2 and NO2, at …
Zirconium-based metal–organic frameworks (MOFs) are of great importance as sorbents due to their increased chemical and thermal stability when compared to other MOF families. Here we report a novel analogue of UiO-66 modified with oxalic acid via solvent-assisted ligand incorporation. This analogue has the ability to remove ammonia, cyanogen chloride, sulphur dioxide, nitrogen dioxide and octane at levels greater than or equal to the base UiO-66. We report here the highest known capacities exhibited by a MOF for SO2 and NO2, at pressures less than 0.10 bar and at room temperature, by UiO-66-ox. Furthermore, we show here the importance of the secondary building unit of the MOF in the removal of ammonia and cyanogen chloride.
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