Gold‐Catalyzed 1,2‐Aryl Shift and Double Alkyne Benzannulation

The tandem intramolecular hydroarylation of alkynes accompanied by a 1,2‐aryl shift is described. Harnessing the unique electron‐rich character of 1,4‐dihydropyrrolo[3,2‐b]pyrrole scaffold, we demonstrate that the hydroarylation of alkynes proceeds at the already occupied positions 2 and 5 leading t...

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Bibliographic Details
Published in:Angewandte Chemie 2023-12, Vol.135 (49), p.n/a
Main Authors: Sanil, Gana, Krzeszewski, Maciej, Chaładaj, Wojciech, Danikiewicz, Witold, Knysh, Iryna, Dobrzycki, Łukasz, Staszewska‐Krajewska, Olga, Cyrański, Michał K., Jacquemin, Denis, Gryko, Daniel T.
Format: Article
Language:English
Subjects:
Alkynes
Aromatic compounds
Biaryls
Catalysts
Chemistry
Density functional theory
Dyes/Pigments
Fluorescence
Functional groups
Gold
Heterocycles
Optical properties
Photoexcitation
Pyrroles
Reaction mechanisms
Spectroscopy
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Summary:The tandem intramolecular hydroarylation of alkynes accompanied by a 1,2‐aryl shift is described. Harnessing the unique electron‐rich character of 1,4‐dihydropyrrolo[3,2‐b]pyrrole scaffold, we demonstrate that the hydroarylation of alkynes proceeds at the already occupied positions 2 and 5 leading to a 1,2‐aryl shift. Remarkably, the reaction proceeds only in the presence of cationic gold catalyst, and it leads to heretofore unknown π‐expanded, centrosymmetric pyrrolo[3,2‐b]pyrroles. The utility is verified in the preparation of 13 products that bear six conjugated rings. The observed compatibility with various functional groups allows for increased tunability with regard to the photophysical properties as well as providing sites for further functionalization. Computational studies of the reaction mechanism revealed that the formation of the six‐membered rings accompanied with a 1,2‐aryl shift is both kinetically and thermodynamically favourable over plausible formation of products containing 7‐membered rings. Steady‐state UV/Visible spectroscopy reveals that upon photoexcitation, the prepared S‐shaped N‐doped nanographenes undergo mostly radiative relaxation leading to large fluorescence quantum yields. Their optical properties are rationalized through time‐dependent density functional theory calculations. We anticipate that this chemistry will empower the creation of new materials with various functionalities. If the occupied position on the heterocyclic core is exceptionally electron‐rich, alkyne benzannulation occurs at this position with concomitant 1,2‐aryl shift. The resulting slightly curved N‐doped nanographenes possess an unprecedented combination of six fused aromatic rings and strong emission of yellow light.
ISSN:0044-8249
1521-3757
DOI:10.1002/ange.202311123