Tailoring exciton and excimer emission in an exfoliated ultrathin 2D metal-organic framework

Abstract: Two-dimensional (2D) metal–organic frameworks have exhibited a range of fascinating attributes, of interest to numerous fields. Here, a calcium-based metal-organic framework with a 2D layered structure has been designed. Dual emissions relating to intralayer excimers and interlayer trapped excitons are produced, showing excitation-dependent shifting tendency, characteristic of a low dimensional semiconductor nature. Furthermore, the layer stacking by weak van der Waals forces among dynamically coordinated DMF … Show more

“…This arises from the fact that in many instances, the usefulness of MOF materials stems from their fluorescence emission, which in turn is heavily dependent on the interactions between the chromophores. Excimer emission of MOF materials due to interchromophoric interactions have been observed in several cases 3a,b,20. In particular, the extent of the interchromophoric interaction in several MOFs was found to be topology-dependent as each MOF displayed different concentration, distance, and mutual orientation of the ligands 7c,d.…”

Temperature-dependent interchromophoric interaction in a fluorescent pyrene-based metal–organic framework

“…This arises from the fact that in many instances, the usefulness of MOF materials stems from their fluorescence emission, which in turn is heavily dependent on the interactions between the chromophores. Excimer emission of MOF materials due to interchromophoric interactions have been observed in several cases 3a,b,20. In particular, the extent of the interchromophoric interaction in several MOFs was found to be topology-dependent as each MOF displayed different concentration, distance, and mutual orientation of the ligands 7c,d.…”

Temperature-dependent interchromophoric interaction in a fluorescent pyrene-based metal–organic framework

“…Up to now, the methods for synthesizing 2D MOFs can be classified into two groups: top-down and bottomup strategies. The top-down exfoliation approach relies on the disintegration of 3D layered MOF solid 11,[16][17][18][19] , usually suffering from high-energy consumption, fragmentation and morphological damage and low yields (typically < 15%) 9,20 . For the bottomup strategy, 2D MOFs are synthesized directly from starting materials by solvothermal route using additives (e.g., surfactant, capping molecules, template) to control the oriented MOF growth [21][22][23][24][25] .…”

CO2 controls the oriented growth of metal-organic framework with highly accessible active sites

“…[20,21] Therefore, obtaining a suitable heterogeneous catalyst remains important.Metal-organic frameworks (MOFs) are a class of hybrid materials formed by connecting organic linkers with inorganic nodes. Their porosity, high surface area, accessible open metal sites, and easy functionalization enable MOFs to be used in various applications in adsorption, [22] separation, [23,24] sensing, [25][26][27] lighting and optics, [28,29] and catalysis. [30,31] In ODS processes, studies have focused on employing MOFs as the support for POM catalysts, making full use of the MOFs' high stability, porosity, and heterogeneity to improve the POM's catalytic activity, even without using any inherent activity of the MOF lattice.…”

Zr‐Metal‐Organic Framework Catalysts for Oxidative Desulfurization and Their Improvement by Postsynthetic Ligand Exchange