A Ferrocene‐Functionalized Bistable [2]Rotaxane with Switchable Fluorescence

Liu, Li; Wang, Qi; Cheng, Ming; Hu, Xiao‐Yu; Jiang, Juli; Wang, Leyong

doi:10.1002/ajoc.201402155

Cited by 17 publications

(1 citation statement)

References 58 publications

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“…[9][10][11][12] Amongst these compounds, molecular shuttles having ar otaxane architecture play an essential role in the molecular machinery toolbox as switchable components. [13][14][15][16][17][18][19] Thus, the relative movement of their threaded components can be controlledb yt he incorporation of binding sites with exchangeable affinitiesi ns trategic positions along the axle and macrocycle. [8] Control of submolecular motion in molecular shuttlesc an be triggered by aw ide variety of stimuli, including redox, photochemical or acid-base processes.…”

Section: Introductionmentioning

confidence: 99%

Co‐conformational Exchange Triggered by Molecular Recognition in a Di(acylamino)pyridine‐Based Molecular Shuttle Containing Two Pyridine Rings at the Macrocycle

et al. 2016

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We describe the incorporation of endo-pyridine units into the tetralactam ring of di(acylamino)pyridine-based rotaxanes. This macrocycle strongly associates with the linear interlocked component as confirmed by X-ray diffraction studies of rotaxane 2 b. Dynamic NMR studies of 2 b in solution revealed a rotational energy barrier that was higher than that of the related rotaxane 2 a, which lacks of pyridine rings in the macrocycle. The macrocycle distribution of the molecular shuttle 4 b, containing two endo-pyridine rings, shows that the major co-conformer is that with the cyclic component sitting over the di(acylamino)pyridine station. DFT calculations also support the marked preference of the ring for occupying the heterocyclic binding site. The association of N-hexylthymine with the di(acylamino)pyridine binding site of 4 b led to the formation of a rare 'S'-shaped co-conformer in which the tetralactam ring interacts simultaneously with both stations of the thread.

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Section: Introductionmentioning

confidence: 99%

Co‐conformational Exchange Triggered by Molecular Recognition in a Di(acylamino)pyridine‐Based Molecular Shuttle Containing Two Pyridine Rings at the Macrocycle

et al. 2016

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A Redox‐Responsive Complex System Based on 2 D Shape‐Persistent Cyclo[6]aramide and Ferrocenium

et al. 2016

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AIE‐Active Chiral [3]Rotaxanes with Switchable Circularly Polarized Luminescence

Wang

et al. 2021

Angewandte Chemie

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The construction of circularly polarized luminescence (CPL) switches with multiple switchable emission states and high dissymmetry factors (glum) has attracted increasing attention due to their broad applications in diverse fields such as the development of smart devices and sensors. Herein, a new family of AIE‐active chiral [3]rotaxanes were designed and synthesized, from which a novel CPL switching system was successfully constructed. The switching process was realized through the controlled motions of the chiral pillar[5]arene macrocycles along the axle through the addition or removal of the acetate anions, which not only modulated the chirality information transfer but also tuned the aggregations of the integrated [3]rotaxanes, thus resulting in reversible transformations between two emission states with both high photoluminescence quantum yields (PLQYs) and high dissymmetry factors (glum) values.

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A Ferrocene‐Functionalized Bistable [2]Rotaxane with Switchable Fluorescence

Cited by 17 publications

References 58 publications

Co‐conformational Exchange Triggered by Molecular Recognition in a Di(acylamino)pyridine‐Based Molecular Shuttle Containing Two Pyridine Rings at the Macrocycle

Co‐conformational Exchange Triggered by Molecular Recognition in a Di(acylamino)pyridine‐Based Molecular Shuttle Containing Two Pyridine Rings at the Macrocycle

A Redox‐Responsive Complex System Based on 2 D Shape‐Persistent Cyclo[6]aramide and Ferrocenium

AIE‐Active Chiral [3]Rotaxanes with Switchable Circularly Polarized Luminescence

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