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Coordination Chemistry Meets Boron Helices: Cationic Double-Stranded Diborahelicates and Bora[7]helicenes with Multicolor Emission

Heechan Kim, Robert J. Gilliard

2025Journal of the American Chemical Society14 citationsDOI

Abstract

Helicates and helicenes represent two prominent classes of synthetic molecular helices, desirable for their potential in chiroptical applications. Incorporating boron into their backbone presents a promising strategy to enhance the optical properties; however, the development of boron-doped helical systems featuring tunable emission, high configurational stability, and strong chiroptical response has been limited by synthetic challenges. We report the chemistry of bora[7]helicene and its dimeric diborahelicate. While the dimeric form is thermodynamically favored in the haloborane precursor, saturation of the boron coordination sphere by exogenous carbene or carbone ligands induces monomerization, reverting the structure to the bora[7]helicene. By employing a variety of ligands, late-stage structural diversification was achieved, yielding the first examples of cationic boron helices, which show exceptional emission tunability across the entire visible spectrum, and chiroptical responses surpassing those of previously reported [7]helicenes. Theoretical studies indicate that the double-helix geometry and the intramolecular charge transfer play a significant role in achieving high dissymmetry factors.

Topics & Concepts

ChemistryHeliceneCationic polymerizationBoronIntramolecular forceCoordination complexHelix (gastropod)Circular dichroismStereochemistryCrystallographyPhotochemistryMoleculeOrganic chemistryMetalSnailBiologyEcologySynthesis and Properties of Aromatic CompoundsAdvanced NMR Techniques and ApplicationsLuminescence and Fluorescent Materials