Add to ORKGThe formation of the UiO-67 family of Zr MOFs is explored here through the prism of their acid-modulated growth, showing it to be key factor in controlling the MOF defect content, porosity, particle size, and morphology. The dynamic nature of the resulting Zr6-monocarboxylate (”missing linker”) defect sites is explored for UiO functionalization (through acid exchange), “healing” and the introduction of a catalytically active M(III) cation.</p
Many metal–organic frameworks (MOFs) incorporate nodes that are small metal oxide clusters. Some of ...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
For three-dimensional (3D) metal–organic frameworks (MOFs), the presence and nature of structural de...
For three-dimensional (3D) metal–organic frameworks (MOFs), the presence and nature of structural de...
The identification and characterization of defects, on the molecular level, in metal‐organic framewo...
UiO-66 is a highly important prototypical zirconium metal–organic framework (MOF) compound because o...
Post-synthetic ligand exchange in the prototypical zirconium-based metal–organic framework (MOF) UiO...
Post-synthetic ligand exchange in the prototypical zirconium-based metal–organic framework (MOF) UiO...
Many metal-organic frameworks (MOFs) incorporate nodes that are small metal oxide clusters. Some of ...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
A major goal of metal–organic framework (MOF) research is to control the structures and functions of...
A major goal of metal–organic framework (MOF) research is to control the structures and functions of...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
A major goal of metal–organic framework (MOF) research is to control the structures and functions of...
Many metal–organic frameworks (MOFs) incorporate nodes that are small metal oxide clusters. Some of ...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
For three-dimensional (3D) metal–organic frameworks (MOFs), the presence and nature of structural de...
For three-dimensional (3D) metal–organic frameworks (MOFs), the presence and nature of structural de...
The identification and characterization of defects, on the molecular level, in metal‐organic framewo...
UiO-66 is a highly important prototypical zirconium metal–organic framework (MOF) compound because o...
Post-synthetic ligand exchange in the prototypical zirconium-based metal–organic framework (MOF) UiO...
Post-synthetic ligand exchange in the prototypical zirconium-based metal–organic framework (MOF) UiO...
Many metal-organic frameworks (MOFs) incorporate nodes that are small metal oxide clusters. Some of ...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
A major goal of metal–organic framework (MOF) research is to control the structures and functions of...
A major goal of metal–organic framework (MOF) research is to control the structures and functions of...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
A major goal of metal–organic framework (MOF) research is to control the structures and functions of...
Many metal–organic frameworks (MOFs) incorporate nodes that are small metal oxide clusters. Some of ...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...
Metalorganic frameworks (MOFs) are a relatively newclass of crystalline porous materials. One family...