Hatakenaka Ryoji, Urabe Kazuma, Ueno So, Yamauchi Mitsuaki, Mizuhata Yoshiyuki, Yamada Hiroko, Mikata Yuji, Kamijo Shin, Tani Fumito, Murafuji Toshihiro
Graduate School of Sciences and Technology for Innovation, Yamaguchi University, Yamaguchi, 753-8512, Japan.
Institute for Chemical Research, Kyoto University, Uji, Kyoto, 611-0011, Japan.
Chemistry. 2025 Mar 3;31(13):e202404679. doi: 10.1002/chem.202404679. Epub 2025 Feb 10.
We report herein the synthesis of an unprecedented isomer of perylene, dicyclohepta[cd,fg]-as-indacene bearing two phenyl groups (1-Ph) by the nickel-mediated intramolecular homocoupling of a 4,4'-biazulene derivative (2). The X-ray crystallographic analysis and theoretical calculations revealed that 1-Ph adopts a unique helically twisted geometry although the local aromaticity of azulene moieties was preserved. The double covalent linkage of the two azulene skeletons imparts significant orbital interaction, which affords near-infrared (NIR) absorption (up to 1720 nm) and remarkable redox behaviors despite its closed-shell electronic structure. The optical band gap of 1-Ph is calculated to be 0.72 eV from its absorption onset, which is one of the narrowest values among the hitherto reported air-stable non-benzenoid PAHs. Furthermore, the thin-film of 1-Ph serves as a p-type semiconductor. Our study offers fundamental insights into not only the aromaticity with the nonalternant topologies of 1-Ph but also its potential application in novel organic electronics.
我们在此报告通过镍介导的4,4'-联薁衍生物(2)的分子内均偶联反应,合成了一种前所未有的苝异构体,即带有两个苯基(1-Ph)的二环庚[cd,fg]-薁并茚。X射线晶体学分析和理论计算表明,尽管薁部分的局部芳香性得以保留,但1-Ph呈现出独特的螺旋扭曲几何结构。两个薁骨架的双共价键赋予了显著的轨道相互作用,尽管其电子结构为闭壳层,但仍能实现近红外(NIR)吸收(高达1720 nm)以及显著的氧化还原行为。根据其吸收起始点计算得出,1-Ph的光学带隙为0.72 eV,这是迄今报道的空气稳定的非苯型多环芳烃中最窄的值之一。此外,1-Ph薄膜可作为p型半导体。我们的研究不仅为1-Ph非交替拓扑结构的芳香性提供了基本见解,还为其在新型有机电子学中的潜在应用提供了参考。
