Add to ORKGThe past 20 years have witnessed tremendous advances in the field of porous materials, including the development of novel metal-organic frameworks (MOFs) that show great potential for practical applications aimed at addressing global environmental and industrial challenges. A critical tool enabling this progress has been reticular chemistry, through which researchers can design materials that exhibit highly regular (i.e., edge-transitive) topologies, based on the assembly of geometrically matched building blocks into specific nets. However, innovation sometimes demands that researchers steer away from default topologies to instead pursue unusual geometries. In this Perspective, we cover this aspect and introduce the concept of geometry mism...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Reticular framework materials thrive on designability, but unexpected reaction outcomes are crucial ...
Understanding the key features that determine structural flexibility in metal–organic frameworks (MO...
International audienceThe past 20 years have witnessed tremendous advances in the field of porous ma...
The past 20 years have witnessed tremendous advances in the field of porous materials, including the...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal-organ...
Metal organic framework (MOF) has emerged as a new class of porous, thermally stable material which ...
Metal organic framework (MOF) has emerged as a new class of porous, thermally stable material which ...
Metal-Organic Frameworks (MOFs) are an important member of porous solids, utilized in numerous appli...
Network structures based upon metal-organic backbones represent a new class of functional materials ...
Network structures based upon metal-organic backbones represent a new class of functional materials ...
Metal-Organic Frameworks (MOFs) are an important member of porous solids, utilized in numerous appli...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Reticular design is a highly attractive concept, but coordination chemistry around the tectonic unit...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Reticular framework materials thrive on designability, but unexpected reaction outcomes are crucial ...
Understanding the key features that determine structural flexibility in metal–organic frameworks (MO...
International audienceThe past 20 years have witnessed tremendous advances in the field of porous ma...
The past 20 years have witnessed tremendous advances in the field of porous materials, including the...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal-organ...
Metal organic framework (MOF) has emerged as a new class of porous, thermally stable material which ...
Metal organic framework (MOF) has emerged as a new class of porous, thermally stable material which ...
Metal-Organic Frameworks (MOFs) are an important member of porous solids, utilized in numerous appli...
Network structures based upon metal-organic backbones represent a new class of functional materials ...
Network structures based upon metal-organic backbones represent a new class of functional materials ...
Metal-Organic Frameworks (MOFs) are an important member of porous solids, utilized in numerous appli...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Reticular design is a highly attractive concept, but coordination chemistry around the tectonic unit...
Herein we describe the topological influence of zigzag ligands in the assembly of Zr(IV) metal–orga...
Reticular framework materials thrive on designability, but unexpected reaction outcomes are crucial ...
Understanding the key features that determine structural flexibility in metal–organic frameworks (MO...