Modifying the internal substituents of self-assembled cages controls their molecular recognition and optical properties

Self-assembled Fe 4 L 6 cage complexes with variable internal functions can be synthesized from a 2,7-dibromocarbazole ligand scaffold, which orients six functional groups to the cage interior. Both ethylthiomethylether and ethyldimethylamino groups can be incorporated. The cages show strong ligand-...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2022-07, Vol.51 (29), p.192-1929
Main Authors: Woods, Connor Z, Wu, Hoi-Ting, Ngai, Courtney, da Camara, Bryce, Julian, Ryan R, Hooley, Richard J
Format: Article
Language:English
Subjects:
Affinity
Amines
Binding
Biomimetics
Cages
Functional groups
Ligands
Optical properties
Protonation
Recognition
Self-assembly
Stoichiometry
Substrates
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Summary:Self-assembled Fe 4 L 6 cage complexes with variable internal functions can be synthesized from a 2,7-dibromocarbazole ligand scaffold, which orients six functional groups to the cage interior. Both ethylthiomethylether and ethyldimethylamino groups can be incorporated. The cages show strong ligand-centered fluorescence emission and a broad range of guest binding properties. Coencapsulation of neutral organic guests is favored in the larger, unfunctionalized cage cavity, whereas the thioether cage has a more sterically hindered cavity that favors 1 : 1 guest binding. Binding affinities up to 10 6 M −1 in CH 3 CN are seen. The dimethylamino cage is more complex, as the internal amines display partial protonation and can be deprotonated by amine bases. This amine cage displays affinity for a broad range of neutral organic substrates, with affinities and stoichiometries comparable to that of the similarly sized thioether cage. These species show that simple variations in ligand backbone allow variations in the number and type of functions that can be displayed towards the cavity of self-assembled hosts, which will have applications in biomimetic sensing, catalysis and molecular recognition. Varying the functional groups in endohedrally functionalized self-assembled Fe 4 L 6 cages allows control of binding affinity and stoichiometry, and fluorescence emission.
ISSN:1477-9226
1477-9234
DOI:10.1039/d2dt01451c