Add to ORKGPorous molecular cages have a characteristic processability arising from their solubility, which allows their incorporation into porous materials. Attaining solubility often requires covalently bound functional groups that are unnecessary for porosity and which ultimately occupy free volume in the materials, decreasing their surface areas. Here, a method is described that takes advantage of the coordination bonds in metal-organic polyhedra (MOPs) to render insoluble MOPs soluble by reversibly attaching an alkyl-functionalized ligand. We then use the newly soluble MOPs as monomers for supramolecular polymerization reactions, obtaining permanently porous, amorphous polymers with the shape of colloids and gels, which display increased gas upta...
Metal-organic polyhedra (MOPs) are discrete, intrinsically-porous architectures that operate at the ...
Porous crystalline solids such as metal-organic frameworks (MOFs) and crystalline porous polymers ar...
The processing of an originally non- porous 1D coordination polymer as monolithic gel, xerogel and a...
Porous molecular cages have a characteristic processability arising from their solubility, which all...
Porous molecular cages have a characteristic processability arising from their solubility, which all...
Designed porosity in coordination materials often relies on highly ordered crystalline networks, whi...
Designed porosity in coordination materials often relies on highly ordered crystalline networks, whi...
Metal organic polyhedra (MOPs) have potential as supramolecular building blocks, but utilizing MOPs ...
Metal-organic polyhedra (MOPs) are molecular porous units in which desired functionalities can be in...
Metal-Organic Polyhedra (MOPs) are self-assembled from nodes and organic linkers, forming nanocages ...
Porous metal-organic materials (MOMs) are assembled through coordination between two types of buildi...
Disclosed herein is a method of making a porous molecular structure from a solution comprising an in...
Making hybrid materials based on Metal-Organic Polyhedra (MOPs) is quite limited possibly due to sta...
Altres ajuts: "la Caixa" Foundation (ID 100010434)Metal-organic polyhedra (MOPs) are a subclass of c...
Synthetic porous materials composed of metal–organic polyhedra (MOPs) have found application in topi...
Metal-organic polyhedra (MOPs) are discrete, intrinsically-porous architectures that operate at the ...
Porous crystalline solids such as metal-organic frameworks (MOFs) and crystalline porous polymers ar...
The processing of an originally non- porous 1D coordination polymer as monolithic gel, xerogel and a...
Porous molecular cages have a characteristic processability arising from their solubility, which all...
Porous molecular cages have a characteristic processability arising from their solubility, which all...
Designed porosity in coordination materials often relies on highly ordered crystalline networks, whi...
Designed porosity in coordination materials often relies on highly ordered crystalline networks, whi...
Metal organic polyhedra (MOPs) have potential as supramolecular building blocks, but utilizing MOPs ...
Metal-organic polyhedra (MOPs) are molecular porous units in which desired functionalities can be in...
Metal-Organic Polyhedra (MOPs) are self-assembled from nodes and organic linkers, forming nanocages ...
Porous metal-organic materials (MOMs) are assembled through coordination between two types of buildi...
Disclosed herein is a method of making a porous molecular structure from a solution comprising an in...
Making hybrid materials based on Metal-Organic Polyhedra (MOPs) is quite limited possibly due to sta...
Altres ajuts: "la Caixa" Foundation (ID 100010434)Metal-organic polyhedra (MOPs) are a subclass of c...
Synthetic porous materials composed of metal–organic polyhedra (MOPs) have found application in topi...
Metal-organic polyhedra (MOPs) are discrete, intrinsically-porous architectures that operate at the ...
Porous crystalline solids such as metal-organic frameworks (MOFs) and crystalline porous polymers ar...
The processing of an originally non- porous 1D coordination polymer as monolithic gel, xerogel and a...