Imidazole-based metal-organic cages: Synthesis, structures, and functions

Imidazole-based metal-organic cages: Synthesis, structures, and functions

[Display omitted] •The edge- and face-directed self-assembly strategies of IMOCs were summarized.•The abundant coordination modes in IMOCs were firstly proposed.•IMOCs with different topologic structures were detailed introduced and analyzed.•Advanced applications of IMOCs were systematacially prese...

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Bibliographic Details
Published in:Coordination chemistry reviews Vol. 455; p. 214354
Main Authors: Zhu, Xiao-Wei, Luo, Dong, Zhou, Xiao-Ping, Li, Dan
Format: Journal Article
Language:English
Published: Elsevier B.V 15-03-2022
Subjects:
Host–guest chemistry
Imidazole
Metal-organic cages
Supramolecular chemistry
Host–guest chemistry
Imidazole
Metal-organic cages
Supramolecular chemistry
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Summary:[Display omitted] •The edge- and face-directed self-assembly strategies of IMOCs were summarized.•The abundant coordination modes in IMOCs were firstly proposed.•IMOCs with different topologic structures were detailed introduced and analyzed.•Advanced applications of IMOCs were systematacially presented and discussed. The coordination-driven self-assembly provides a favourable methodology for constructing metal–organic architectures with diverse structures and functions. As a classical five-membered heterocyclic ligand, imidazole is widely used in the construction of metal–organic materials with finitely and infinitely structures. In this review, the synthetic methods of imidazole-based metal–organic cages (IMOCs) are introduced and analysed. Subsequently, various type of IMOCs with structure and coordination diversity of imidazole and its polytopic derivatives, including tetrahedron, cube, octahedron, rhombic dodecahedron, tetartoid, bicapped square antiprism, prism, etc., have been rationally categorised by using edge- and face-directed self-assembly strategies. Moreover, the functional applications of these IMOCs, including host–guest chemistry, luminescence, magnetism, catalysis, biological effect, and proton conductivity, are also comprehensively summarized. The relationship between structures and properties of IMOCs are elucidated and concluded, which provides some inspiration for designing new metal–organic cages with advanced functions.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2021.214354