TPE-embedded butterfly bis-crown ether with controllable conformation and supramolecular chiroptical property

Understanding how subtle structural differences between macrocyclic conformational isomers impact their properties and separation has garnered increasing attention in the field of supramolecular synthetic chemistry. In this work, a series of tetraphenylene (TPE)-embedded butterfly bis-crown ether ma...

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Bibliographic Details
Published in:Nature communications 2024-08, Vol.15 (1), p.7182-11, Article 7182
Main Authors: Tian, Xueqi, Zuo, Minzan, Shen, Yuhong, Mao, Ni, Wang, Kaiya, Sheng, Yanshan, Velmurugan, Krishnasamy, Jiao, Jianmin, Hu, Xiao-Yu
Format: Article
Language:English
Subjects:
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Assemblies
Asymmetric structures
Binding
Chemical synthesis
Chiral materials
Chirality
Circular dichroism
Circular polarization
Conformation
Controllability
Coupling (molecular)
Crown ethers
Dichroism
Fluorescence
Host-guest materials
Humanities and Social Sciences
Isomers
Molecular chains
Molecular conformation
multidisciplinary
Polymers
Rings (mathematics)
Science
Science (multidisciplinary)
Single crystals
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Summary:Understanding how subtle structural differences between macrocyclic conformational isomers impact their properties and separation has garnered increasing attention in the field of supramolecular synthetic chemistry. In this work, a series of tetraphenylene (TPE)-embedded butterfly bis-crown ether macrocycles ( BCE[n] , n  = 4–7), comprising two crown ether side rings and a TPE core, are synthesized through intramolecular McMurry coupling. Unexpectedly, the presence of flexible oligoethylene chains with varying lengths are found to influence molecular conformation via multiple intramolecular interactions, resulting in the formation of two stabilized conformers with specific semi-rigid symmetric/asymmetric structures ( sym - BCE[n] and asym - BCE[n] , n  = 5, 6). Moreover, it is noteworthy that neither symmetric nor asymmetric conformers are present in the more rigid BCE[4] or the more flexible BCE[7] . Interestingly, these conformers display distinct fluorescence properties and host-guest binding abilities, and only sym - BCE[5] can serve as a host for chiral polymer binding, resulting in the formation of chiral supramolecular assemblies through host-guest interaction induced chirality. Moreover, both circular dichroism and circularly polarized luminescence signals of the obtained assemblies can be switched off by the addition of sodium ion, suggesting potential applications in the field of dynamic chiral materials. Understanding how structural differences impact the properties of macrocyclic conformational isomers has garnered attention in the field of supramolecular chemistry. Here, the authors synthesize tetraphenylene-embedded butterfly bis-crown ether macrocycles with conformers that display distinct fluorescence properties and host-guest binding abilities.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-024-51607-z