通过消除分子轨道简并制备 5,10-取代[5]螺旋芴的简便光化学合成方法。

Facile photochemical synthesis of 5,10-disubstituted [5]helicenes by removing molecular orbital degeneracy.

机构信息

Department of Synthetic Chemistry and Biological Chemistry, Graduate School of Engineering, Kyoto University , Katsura, Nishikyo-ku, Kyoto 615-8510, Japan.

出版信息

Org Lett. 2014 May 2;16(9):2502-5. doi: 10.1021/ol5008718. Epub 2014 Apr 21.

DOI:10.1021/ol5008718

PMID:24749957

Abstract

Photocyclodehydrogenation is a key reaction to synthesize helicenes; however, because of overannulation, it is not applicable to the synthesis of [5]helicene. Introduction of a cyano group was found to remove the orbital degeneracy of the low-lying unoccupied MOs; consequently, the lowest excitation comprises a single transition involving the C2-antisymmetric MO. Therefore, the problematic overannulation can be effectively suppressed. Moreover, in combination with the Knoevenagel reaction, a one-pot synthesis of 5,10-dicyano[5]helicene with 67% yield was accomplished.

摘要

光环脱氢反应是合成螺旋芳烃的关键反应；然而，由于过度稠合，它不适用于[5]螺旋芳烃的合成。研究发现，引入氰基可以消除低占据轨道的简并性；因此，最低激发态包含一个涉及 C2-反对称轨道的单跃迁。因此，可以有效地抑制有问题的过度稠合。此外，通过与 Knoevenagel 反应相结合，以 67%的收率实现了 5,10-二氰基[5]螺旋芳烃的一锅法合成。

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通过消除分子轨道简并制备 5,10-取代[5]螺旋芴的简便光化学合成方法。

Facile photochemical synthesis of 5,10-disubstituted [5]helicenes by removing molecular orbital degeneracy.

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