Bowl‐Shaped Kekulene Analogues: Cycloarenes with two Five‐Membered Rings

Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully syn...

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Published in	Chemistry : a European journal Vol. 30; no. 45; pp. e202401828 - n/a
Main Authors	Murakami, Hideyuki, Iwabuchi, Hiroki, Asari, Miki, Yamada, Hiroko, Kuzuhara, Daiki
Format	Journal Article
Language	English
Published	WEINHEIM Wiley 12.08.2024 Wiley Subscription Services, Inc
Subjects	Aromatic compounds Aromaticity Benzene bowl-shaped structure bowl-to-bowl inversion Chemistry Chemistry, Multidisciplinary Conjugation Cycloarene Diels-Alder reaction Electronic structure kekulene NMR Nuclear magnetic resonance Physical Sciences Resonance Room temperature Science & Technology bowl-shaped structure BUCKYBOWLS SUMANENE CORANNULENE bowl-to-bowl inversion Cycloarene kekulene SYSTEMS CRYSTAL Diels-Alder reaction INVERSION
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Abstract	Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl‐shaped kekulene analogues with five‐membered rings incorporated into the kekulene structure. The results of DFT calculations and VT‐NMR spectra indicate that inversion of their concave‐convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π‐conjugation on the sp3 carbons at the five‐membered rings. Despite the presence of the Clar's resonance structure, the Diels‐Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl‐shaped compounds and development of reactivity in aromatic compounds. Bowl‐shaped cycloarene have been synthesized via the introduction of five‐membered rings into the kekulene structure. The results of DFT calculations and VT‐NMR spectra indicate that inversion of concave‐convex structures occurs at room temperature. Additionally, these compounds react with a dienophile to produce the vent structure compounds.
AbstractList	Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl‐shaped kekulene analogues with five‐membered rings incorporated into the kekulene structure. The results of DFT calculations and VT‐NMR spectra indicate that inversion of their concave‐convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π‐conjugation on the sp3 carbons at the five‐membered rings. Despite the presence of the Clar's resonance structure, the Diels‐Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl‐shaped compounds and development of reactivity in aromatic compounds. Bowl‐shaped cycloarene have been synthesized via the introduction of five‐membered rings into the kekulene structure. The results of DFT calculations and VT‐NMR spectra indicate that inversion of concave‐convex structures occurs at room temperature. Additionally, these compounds react with a dienophile to produce the vent structure compounds. Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl-shaped kekulene analogues with five-membered rings incorporated into the kekulene structure. The results of DFT calculations and VT-NMR spectra indicate that inversion of their concave-convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the pi-conjugation on the sp3 carbons at the five-membered rings. Despite the presence of the Clar's resonance structure, the Diels-Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl-shaped compounds and development of reactivity in aromatic compounds. Bowl-shaped cycloarene have been synthesized via the introduction of five-membered rings into the kekulene structure. The results of DFT calculations and VT-NMR spectra indicate that inversion of concave-convex structures occurs at room temperature. Additionally, these compounds react with a dienophile to produce the vent structure compounds. image Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl-shaped kekulene analogues with five-membered rings incorporated into the kekulene structure. The results of DFT calculations and VT-NMR spectra indicate that inversion of their concave-convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π-conjugation on the sp3 carbons at the five-membered rings. Despite the presence of the Clar's resonance structure, the Diels-Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl-shaped compounds and development of reactivity in aromatic compounds.Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl-shaped kekulene analogues with five-membered rings incorporated into the kekulene structure. The results of DFT calculations and VT-NMR spectra indicate that inversion of their concave-convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π-conjugation on the sp3 carbons at the five-membered rings. Despite the presence of the Clar's resonance structure, the Diels-Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl-shaped compounds and development of reactivity in aromatic compounds. Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl‐shaped kekulene analogues with five‐membered rings incorporated into the kekulene structure. The results of DFT calculations and VT‐NMR spectra indicate that inversion of their concave‐convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π‐conjugation on the sp 3 carbons at the five‐membered rings. Despite the presence of the Clar's resonance structure, the Diels‐Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl‐shaped compounds and development of reactivity in aromatic compounds. Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl-shaped kekulene analogues with five-membered rings incorporated into the kekulene structure. The results of DFT calculations and VT-NMR spectra indicate that inversion of their concave-convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π-conjugation on the sp carbons at the five-membered rings. Despite the presence of the Clar's resonance structure, the Diels-Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl-shaped compounds and development of reactivity in aromatic compounds. Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the subject of investigation into its aromaticity and electronic structure, particularly in relation to the cyclic benzenoid. We have successfully synthesized novel bowl‐shaped kekulene analogues with five‐membered rings incorporated into the kekulene structure. The results of DFT calculations and VT‐NMR spectra indicate that inversion of their concave‐convex structures occurs at room temperature. The NICS and AICD plots predict that the Clar's type resonance structure is found in a manner analogous to the pristine kekulene, albeit with the interruption of the π‐conjugation on the sp3 carbons at the five‐membered rings. Despite the presence of the Clar's resonance structure, the Diels‐Alder reaction proceeded smoothly with a dienophile, in contrast to the behavior of planar kekulene derivatives. This study will lead to the creation of novel bowl‐shaped compounds and development of reactivity in aromatic compounds.Dedicated to Professor Atsuhiro Osuka on the occasion of his 70th birthday
Author	Yamada, Hiroko Murakami, Hideyuki Iwabuchi, Hiroki Kuzuhara, Daiki Asari, Miki
Author_xml	– sequence: 1 givenname: Hideyuki surname: Murakami fullname: Murakami, Hideyuki organization: Iwate University – sequence: 2 givenname: Hiroki surname: Iwabuchi fullname: Iwabuchi, Hiroki organization: Iwate University – sequence: 3 givenname: Miki surname: Asari fullname: Asari, Miki organization: Iwate University – sequence: 4 givenname: Hiroko orcidid: 0000-0002-2138-5902 surname: Yamada fullname: Yamada, Hiroko organization: Kyoto University – sequence: 5 givenname: Daiki orcidid: 0000-0001-7948-8501 surname: Kuzuhara fullname: Kuzuhara, Daiki email: kuzuhara@iwate-u.ac.jp organization: Iwate University
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Keywords	bowl-shaped structure BUCKYBOWLS SUMANENE CORANNULENE bowl-to-bowl inversion Cycloarene kekulene SYSTEMS CRYSTAL Diels-Alder reaction INVERSION
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Snippet	Kekulene, a cycloarene composed of 12 fused benzene rings in a circular arrangement, exhibits a highly planar and robust structure. Kekulene has been the...
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SubjectTerms	Aromatic compounds Aromaticity Benzene bowl-shaped structure bowl-to-bowl inversion Chemistry Chemistry, Multidisciplinary Conjugation Cycloarene Diels-Alder reaction Electronic structure kekulene NMR Nuclear magnetic resonance Physical Sciences Resonance Room temperature Science & Technology
Title	Bowl‐Shaped Kekulene Analogues: Cycloarenes with two Five‐Membered Rings
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