UiO-66 is regarded as an epitome of metal–organic frameworks (MOFs) because of its
stability. Defect engineering has been used as a toolbox to alter the performance of MOFs …

The coordination connection of organic linkers to the metal clusters leads to the formation of
metal–organic frameworks (MOFs), where the metal clusters and ligands are spatially …

Metal organic frameworks (MOFs) have drawn wide attention as potential catalysts, offering
high densities of catalytic sites in high-area porous solids, some with stabilities at high …

UiO-66 is an archetypal metal–organic framework (MOF) with a very high surface area as
well as high thermal stability. It is found that the stability can be attributed to the metal oxide …

Defect engineering of metal–organic frameworks (MOFs) offers promising opportunities for
tailoring their properties to specific functions and applications. However, determining the …

Aqueous zinc batteries are promising for large-scale energy storage. However, the cycle
stability of the Zn anode is severely hindered by the continuous side reactions and …

Surface-supported metal–organic framework thin films are receiving increasing attention as
a novel form of nanotechnology. New deposition techniques that enable the control of the …

Presented in this paper is a deep investigation into the defect chemistry of UiO-66 when
synthesized in the presence of monocarboxylic acid modulators under the most commonly …

Mixed matrix membranes (MMMs) for gas separation applications have enhanced selectivity
when compared with the pure polymer matrix, but are commonly reported with low intrinsic …

Defect engineering in metal–organic frameworks (MOFs) is an exciting concept for tailoring
material properties, which opens up novel opportunities not only in sorption and catalysis …