A systematic investigation on structure–property relationships of water adsorption was realized in isomorphic UiO-type MOFs, revealing that functionalizing MOFs with N sites may provide a strategy to improve low-pressure water uptakes and kinetics.
Metal–organic frameworks (MOFs) possess a modular construction. By introducing halogen atoms on the linker unit, the refractive index n of UiO-66 MOFs can be tuned over a wide range, as high-level hybrid DFT calculations show.
Developing high-performance membranes for post-combustion CO2 separation is essential in addressing the ongoing climate crisis.
This review highlights the promising prospects of defective zirconium-based MOFs in addressing challenging energy- and environment-related problems, positioning them as versatile tools toward a cleaner and more sustainable future.
This research systematically investigates a library of UiO-66(Zr), functionalized with polar and nonpolar substituents, to evaluate their potential as carriers for 8-hydroxyquinoline inhibitor encapsulation.