Dr. Kate Lawrence, Editor for ChemPhysChem and ChemElectroChem, talks to Professor Qiang Sun about his article that has recently been accepted for publication in ChemPhysChem.
Tremendous attention has been paid to Pc-based 1D nanotubes and 2D nanosheets. However, until now, no study has been reported for Pc-based 0D nanocages. It has been reported in Nature Chemistry that the graphene sheet can not only form a carbon nanotube but also can form a fullerene cage. Following this logic, for the first time, we explored Pc-based nanocages.
Compared with the cage of C60, our studied Pc-based cage has the following features:
i) The cage is porous, so larger molecules can be easily encapsulated.
ii) The cage radius is twice of that of C60 and the volume is eight times of that of C60; therefore, the storage capacity is significantly improved.
iii) Owing to the smaller HOMO–LUMO gap, Pc-based cages can absorb light with larger wavelengths, so it can be photosensitized or photomanipulated for biomedical applications. Our work not only bridges the knowledge gap regarding 0D Pc-based nanostructures, but also provides possibilities for applications in energy conversion, drug storage, and gas separation.
One of the projects in our research group is to study porous organometallic materials for energy and the environment. Our previous studies have shown that the metal atoms in porous organometallic materials can be uniformly distributed in the substrate without clustering, and can display well-defined geometries and magnetic properties for potential applications in spintronics, hydrogen storage, and CO2 capture. Our current attention is focused on further exploring the various allotropes, of different dimensions, that can be derived from the Pc-based sheet.
The existing study has already shown that fullerene cages can be synthesized from graphene sheets, but we are not sure how long it will take to synthesize a Pc-based cage from the 2D sheet or from Pc molecules. We are more than happy to see the new progress in this field.
This work should motivate people to develop new techniques for synthesizing and characterizing Pc-based porous cages, going beyond fullerenes, for unprecedented applications.
In future work, we will concentrate on studying Pc-cage-based 3D materials, and Pc-cage-based devices for different applications.
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