AI Article Synopsis
- - There is increasing interest in metal-organic cages (MOCs) as porous materials due to their ability to be processed in solution, which makes them versatile for various applications.
- - The unique molecular structure and surface characteristics of MOCs influence how they interact with each other, allowing researchers to fine-tune the physical properties of the resulting materials.
- - The review emphasizes the potential of surface functionalization of MOCs to create different states of porous materials, and it highlights future opportunities for developing complex materials across multiple length scales.
Article Abstract
There is growing interest in metal-organic cages (MOCs) as porous materials owing to their processability in solution. The discrete molecular character and surface features of MOCs have a direct impact on the interactions between cages, enabling the final physical state of the materials to be tuned. In this tutorial review, we discuss how to use MOCs as core building units, highlighting the role played by surface functionalisation of MOCs in leading to porous materials in a range of states covering crystalline solids, soft matter, liquids and composites. We finish by providing an outlook on the opportunities for this work to serve as a foundation for the development of increasingly complex functional porous materials structured over various length scales.
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| http://dx.doi.org/10.1039/d1cs00759a | DOI Listing |
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