Miguel A. Medel scite author profile

¹

,

Tapia

²

,

Blanco

³

et al. 2021

We report a new family of hexa‐peri‐hexabenzocoronene (HBC)‐based helical nanographenes incorporating π‐extended carbo[5]helicenes bearing an octagonal carbocycle. This family represents a new kind of highly distorted saddle‐helix hybrid nanographenes. For the first time, the eight‐membered ring becomes a constituent of both a carbo[5]helicene and a HBC and thus, the negative curvature is responsible for twisting both units. This novel chiral motif, namely, oct‐[5]helicene results in the largest torsion angle recorded so far for a carbo[5]helicene (θ=79.5°), as it has been suggested by DFT‐calculations and confirmed by X‐ray crystallography. Consequently, the barriers of isomerization become exceptionally high for a [5]helicene unsubstituted in the fjord region since neither racemization nor decomposition were observed at 200 °C for 1 or 3 during 5 h. Therefore, racemic resolutions allowed subsequent chiroptical studies showing the ECD and CPL responses of this novel family of chiral nanographenes.

Highly contorted superhelicene hits near-infrared circularly polarized luminescence

Míguez-Lago

¹

,

Mariz

²

,

³

et al. 2022

Aggregation-induced emission of [3]cumulenes functionalized with heptagon-containing polyphenylenes

Jiménez

¹

,

Tapia

²

,

³

et al. 2018

Chiral Distorted Hexa‐peri‐hexabenzocoronenes Bearing a Nonagon‐Embedded Carbohelicene

¹

,

Cruz

²

,

Miguel

³

et al. 2021

A new family of chiral saddle‐helix hybrid nanographenes is reported. The first hexa‐peri‐hexabenzocoronene (HBC) analogues bearing a nine‐membered carbocycle are presented. Furthermore, for the first time, π‐extended carbo[n]helicenes containing a nine‐membered ring as part of the helical moiety have been synthesized. The combination of a [5]helicene moiety and a nonagon ring in a single chiral motif induces a tremendous distortion from planarity into the nanographenic structures compared to other saddle‐helix hybrids such as heptagon‐ and octagon‐containing π‐extended carbo[5]helicenes. In fact, the interplanar angle of the two terminal rings reaches the largest angle (134.8°) of a carbohelicene reported to date, thus being by far the most twisted helicene yet prepared. Photophysical properties evaluation showed improved absorption dissymmetry factors (|gabs|=4.2×10−3) in the new family of nonagon‐containing π‐extended carbo[5]helicenes.

Octagon‐Embedded Carbohelicene as a Chiral Motif for Circularly Polarized Luminescence Emission of Saddle‐Helix Nanographenes

¹

,

Tapia

²

,

Blanco

³

et al. 2021

We report a new family of hexa‐peri‐hexabenzocoronene (HBC)‐based helical nanographenes incorporating π‐extended carbo[5]helicenes bearing an octagonal carbocycle. This family represents a new kind of highly distorted saddle‐helix hybrid nanographenes. For the first time, the eight‐membered ring becomes a constituent of both a carbo[5]helicene and a HBC and thus, the negative curvature is responsible for twisting both units. This novel chiral motif, namely, oct‐[5]helicene results in the largest torsion angle recorded so far for a carbo[5]helicene (θ=79.5°), as it has been suggested by DFT‐calculations and confirmed by X‐ray crystallography. Consequently, the barriers of isomerization become exceptionally high for a [5]helicene unsubstituted in the fjord region since neither racemization nor decomposition were observed at 200 °C for 1 or 3 during 5 h. Therefore, racemic resolutions allowed subsequent chiroptical studies showing the ECD and CPL responses of this novel family of chiral nanographenes.