AI Article Synopsis
- Chiral nanographenes (NGs) are gaining traction as exciting optoelectronic materials, with a focus on helically chiral types, but axially chiral nonbenzenoid NGs have been less explored.
- This study introduces a new axially chiral nonbenzenoid nanographene made from six pentagons and four heptagons, synthesized using a Pd-catalyzed reaction, and showcases its high racemization energy due to bulky substituents.
- The obtained enantiomers display significant circular dichroism (CD) activity and form unique crystal structures with second harmonic generation (SHG) properties, marking them as distinct from previously known axially chiral benzenoid
Article Abstract
Chiral nanographenes (NGs) have garnered significant interest as optoelectronic materials in recent years. While helically chiral NGs have been extensively studied, axially chiral NGs have only witnessed limited examples, with no prior reports of axially chiral nonbenzenoid NGs. Herein we report an axially chiral nonbenzenoid nanographene featuring six pentagons and four heptagons. This compound, denoted as , was efficiently synthesized via an efficient Pd-catalyzed aryl silane homocoupling reaction. The presence of two bulky 3,5-di--butylphenyl groups around the connecting the two nonbenzenoid PAH (AHR) segments endows with atropisomeric chirality and high racemization energy barrier, effectively preventing racemization of both - and -enantiomers at room temperature. Optically pure - and - were obtained by chiral HPLC separation, and they exhibit circular dichroism (CD) activity at wavelengths up to 660 nm, one of the longest wavelengths with CD responses reported for the chiral NGs. Interestingly, racemic forms a homoconfiguration π-dimer in the crystal lattice, belonging to the chiral space group. Consequently, this unique structure renders crystals of with a second harmonic generation (SHG) response, distinguishing it from all the reported axially chiral benzenoid NGs. Moreover, - and - also exhibit SHG-CD properties.
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