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Dispersion-driven formation of chiral twisted PAH double helices

Xuan Yang, Margit Brückner, Frank Röminger, Tobias Kirschbaum, Michael Mastalerz

2024Chem27 citationsDOIOpen Access PDF

Abstract

Molecular double helices are ubiquitous in nature and have also been generated artificially. They are usually based on helical ribbons. Here, a new type of double helix based on twisted ribbons is introduced. The monomeric strands are polycyclic aromatic hydrocarbons of various lengths, with up to 25 linearly annulated six-membered rings. Single-crystal X-ray structure analysis revealed that the major driving forces in the creation of these helices are multiple dispersion interactions of alkyl substituents. The thermodynamic stability and formation of the twisted double helices were studied by NMR, while the kinetics of their inversions was studied by circular dichroism spectroscopy. In combination with theoretical calculations, the mechanism of isomerization is suggested to depend on the rate of monomerization of double-helical strands rather than the double helices racemizing themselves as intact pairs. This new type of double helix based on twisted nanoribbons, in combination with its aromatic nature, opens up new possibilities in designing chiral materials.

Topics & Concepts

Dispersion (optics)Helix (gastropod)Materials scienceChemistryCrystallographyPhysicsOpticsBiologyEcologySnailSynthesis and Properties of Aromatic CompoundsLuminescence and Fluorescent MaterialsSupramolecular Self-Assembly in Materials
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