Molecular Face-Rotating Polyhedra: Chiral Cages Inspired by Mathematics

Dong, Xue; Qu, Hang; Sue, Andrew C.-H.; Wang, Xin-Chang; Cao, Xiao-Yu

doi:10.1021/acs.accounts.3c00777

“…Although the detailed stereochemistry of the M-and D-TPA[3]-cage could not be fully explored at this stage due to their conformationally labile nature, such characteristics pave the way for pioneering strategies in creating more facerotating polyhedral structures. [23]…”

Section: Resultsmentioning

confidence: 99%

Triphenylamine[3]arenes: Streamlining Synthesis of a Versatile Macrocyclic Platform for Supramolecular Architectures and Functionalities

Fang,

Zhang,

Guo

et al. 2024

Angewandte Chemie

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Triphenylamine[3]arenes (TPA[3]s), featuring [16]paracyclophane backbone with alternating carbon and nitrogen bridging atoms, were synthesized through a BF3·Et2O‐catalyzed cyclization reaction using triphenylamine derivatized monomers and paraformaldehyde. This molecular design yielded a series of TPA[3] macrocycles with high efficiency, with their facile derivatizations also successfully demonstrated. On account of the strong electron‐donating properties of the TPA moieties, these TPA[3]s exhibit remarkable delayed fluorescence, and possess a significant affinity for iodine. Furthermore, their inherent three‐fold symmetry rendered TPA[3]s as novel building blocks for the construction of extended frameworks and molecular cages. This advancement expands the versatility of discrete macrocycles into complex architectures, enhancing their applicability across a broad spectrum of applications.

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Triphenylamine[3]arenes: Streamlining Synthesis of a Versatile Macrocyclic Platform for Supramolecular Architectures and Functionalities

Fang,

Zhang,

Guo

et al. 2024

Angew Chem Int Ed

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0

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Triphenylamine[3]arenes (TPA[3]s), featuring [16]paracyclophane backbone with alternating carbon and nitrogen bridging atoms, were synthesized through a BF3·Et2O‐catalyzed cyclization reaction using triphenylamine derivatized monomers and paraformaldehyde. This molecular design yielded a series of TPA[3] macrocycles with high efficiency, with their facile derivatizations also successfully demonstrated. On account of the strong electron‐donating properties of the TPA moieties, these TPA[3]s exhibit remarkable delayed fluorescence, and possess a significant affinity for iodine. Furthermore, their inherent three‐fold symmetry rendered TPA[3]s as novel building blocks for the construction of extended frameworks and molecular cages. This advancement expands the versatility of discrete macrocycles into complex architectures, enhancing their applicability across a broad spectrum of applications.

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Enantiopure Macrocycles Based on Tröger‘s Base and Diphenyl Maleimide Exhibiting Strong Chiral Emission and Host‐Guest Properties

Song,

Ma,

Han

et al. 2024

Chemistry A European J

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While a plenty of macrocyclic hosts have been developed in supramolecular chemistry, those that combine chiral luminescent properties and host‐guest recognition abilities are still uncommon. Herein, two pairs of enantiomeric macrocycles were synthesized via Suzuki‐Miyaura [2+2] cyclization reactions using Tröger's base and diphenyl maleimide as the building blocks. The diphenyl maleimide units impart these macrocycles with highly strong fluorescence, achieving quantum yields up to 100% in apolar solvents. Furthermore, the chiral, V‐shaped Tröger's base units provide the macrocycles with circularly polarized luminescence (|glum| = 1.68 × 10−3) and well‐define cavity for hosting electron‐deficient or positively charged guests with Ka up to 1.7 × 106 M−1.

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Molecular Face-Rotating Polyhedra: Chiral Cages Inspired by Mathematics

Cited by 4 publications

References 54 publications

Triphenylamine[3]arenes: Streamlining Synthesis of a Versatile Macrocyclic Platform for Supramolecular Architectures and Functionalities

Triphenylamine[3]arenes: Streamlining Synthesis of a Versatile Macrocyclic Platform for Supramolecular Architectures and Functionalities

Triphenylamine[3]arenes: Streamlining Synthesis of a Versatile Macrocyclic Platform for Supramolecular Architectures and Functionalities

Enantiopure Macrocycles Based on Tröger‘s Base and Diphenyl Maleimide Exhibiting Strong Chiral Emission and Host‐Guest Properties

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