全共轭[4]金晶烯。四自由基大环中的氧化还原偶联阴离子结合。

Fully Conjugated [4]Chrysaorene. Redox-Coupled Anion Binding in a Tetraradicaloid Macrocycle.

作者信息

Gregolińska Hanna, Majewski Marcin, Chmielewski Piotr J, Gregoliński Janusz, Chien Alan, Zhou Jiawang, Wu Yi-Lin, Bae Youn Jue, Wasielewski Michael R, Zimmerman Paul M, Stępień Marcin

机构信息

Wydział Chemii, Uniwersytet Wrocławski , ul. F. Joliot-Curie 14 , 50-383 Wrocław , Poland.

Department of Chemistry , University of Michigan , 930 North University Avenue , Ann Arbor , Michigan 48109 , United States.

出版信息

J Am Chem Soc. 2018 Oct 31;140(43):14474-14480. doi: 10.1021/jacs.8b09385. Epub 2018 Oct 16.

DOI:10.1021/jacs.8b09385

PMID:30289699

Abstract

[4]Chrysaorene, a fully conjugated carbocyclic coronoid, is shown to be a low-bandgap π-conjugated system with a distinct open-shell character. The system shows good chemical stability and can be oxidized to well-defined radical cation and dication states. The cavity of [4]chrysaorene acts as an anion receptor toward halide ions with a particular selectivity toward iodides ( K = 207 ± 6 M). The interplay between anion binding and redox chemistry is demonstrated using a H NMR analysis in solution. In particular, a well-resolved, paramagnetically shifted spectrum of the [4]chrysaorene radical cation is observed, providing evidence for the inner binding of the iodide. The radical cation-iodide adduct can be generated in thin solid films of [4] chrysaorene by simple exposure to diiodine vapor.

摘要

[4] Chrysaorene是一种完全共轭的碳环冠状化合物，被证明是一种具有独特开壳特征的低带隙π共轭体系。该体系具有良好的化学稳定性，可被氧化为明确的自由基阳离子和二价阳离子状态。[4] Chrysaorene的空腔作为卤离子的阴离子受体，对碘化物具有特殊的选择性（K = 207 ± 6 M）。通过溶液中的1H NMR分析证明了阴离子结合与氧化还原化学之间的相互作用。特别是，观察到了[4] Chrysaorene自由基阳离子的分辨率良好的顺磁位移光谱，为碘化物的内结合提供了证据。通过简单暴露于二碘蒸气中，可以在[4] Chrysaorene的固体薄膜中生成自由基阳离子-碘化物加合物。

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全共轭[4]金晶烯。四自由基大环中的氧化还原偶联阴离子结合。

Fully Conjugated [4]Chrysaorene. Redox-Coupled Anion Binding in a Tetraradicaloid Macrocycle.

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