Stable Crystalline Nanohoop Radical and Its Self‐Association Promoted by van der Waals Interactions

Hou, Bingxia; Li, Ké; He, Huijie; Hu, Jinlian; Xu, Zhuofan; Xiang, Qin; Wang, Peng; Chen, Xing; Sun, Zhe

doi:10.1002/ange.202301046

Angewandte Chemie

2023

DOI: 10.1002/ange.202301046

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Stable Crystalline Nanohoop Radical and Its Self‐Association Promoted by van der Waals Interactions

Bingxia Hou

Ké Li

Huijie He

et al.

Abstract: A stable nanohoop radical (OR3) combining the structures of cycloparaphenylene and an olympicenyl radical is synthesized and isolated in the crystalline state. X-ray crystallographic analysis reveals that OR3 forms a unique head-to-tail dimer that further aggregates into a one-dimensional chain in the solid state. Variable-temperature NMR and concentration-dependent absorption measurements indicate that the π-dimer is not formed in solution. An energy decomposition analysis indicates that van der Waals interac… Show more

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Cited by 6 publications

References 116 publications

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Unlocking the Multistage Redox Property of Graphenic Radicals by π‐Extension

Pu,

Xu,

Zhang

et al. 2024

Angewandte Chemie

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Delocalized organic π‐radicals are intrinsically amphoteric redox systems; however, achieving their multistage redox capability presents a challenge. In addition, their instability often hampers their synthesis, isolation, and characterization. Herein, we report the synthesis of a stable π‐extended nanographene π‐radical (NR1) and its isolation in the crystalline form. NR1 exhibits an unusual four‐stage amphoteric redox behavior, as revealed by cyclic voltammetry measurements. The stable charged species, including a cation and a radical dication, are characterized using spectroscopic methods. This study demonstrates that π‐extension could serve as a viable approach to unlock the multistage redox ability of delocalized organic radicals.

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Unlocking the Multistage Redox Property of Graphenic Radicals by π‐Extension

Pu,

Xu,

Zhang

et al. 2024

Angewandte Chemie

View full text Add to dashboard Cite

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Crystallization‐Induced Dimerization and Solution‐Phase Bond Dissociation of Stable Dibenzoolympicenyl Radicals

Zhang,

He,

et al. 2024

Angewandte Chemie

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Crystallization of organic materials can lead to different assembly structure with different reactivity, but this phenomenon is rarely observed for delocalized hydrocarbon radicals. This report introduces a crystallization‐induced radical–radical coupling reaction, which employs a series of stable nonplanar organic π‐radicals as reactants. Six stable radical congeners are synthesized, resulting in radical–radical coupling at the allenyl radical site during crystallization to produce close‐shell dimers. This coupling reaction is absent in the solution phase, which highlights the importance of preorganization in the lattice. Remarkably, the attempts of cocrystallization of different congeners yielded homocoupling products instead of cross‐coupling products. In specific cases, two distinct polymorphs are observed and their reactivity is different according to the distance of the reaction sites. Theoretical calculations indicate that the transition from a metastable preorganized monomer to a dimer is barrierless and spontaneous. The dimer could regenerate free radicals by heating or photoirradiation in the solution phase. This discovery may lead to controllable molecular switches.

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Unlocking the Multistage Redox Property of Graphenic Radicals by π‐Extension

Pu,

Xu,

Zhang

et al. 2024

Angew Chem Int Ed

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Stable Crystalline Nanohoop Radical and Its Self‐Association Promoted by van der Waals Interactions

Cited by 6 publications

References 116 publications

Unlocking the Multistage Redox Property of Graphenic Radicals by π‐Extension

Unlocking the Multistage Redox Property of Graphenic Radicals by π‐Extension

Crystallization‐Induced Dimerization and Solution‐Phase Bond Dissociation of Stable Dibenzoolympicenyl Radicals

Unlocking the Multistage Redox Property of Graphenic Radicals by π‐Extension

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