Abstract
Molecular switches have received major attention to enable the reversible modulation of various molecular properties and have been extensively used as trigger elements in diverse fields, including molecular machines, responsive materials, and photopharmacology. Antiaromaticity is a fascinating property that has attracted not only significant fundamental interest but is also increasingly relevant in different applications, in particular organic (opto)electronics. However, designing systems in which (anti)aromaticity can be judiciously and reversibly switched ON and OFF remains challenging. Herein, we report a helicene featuring an indenofluorene-bridged bisthioxanthylidene as a novel switch wherein a simultaneous two-electron (electro)chemical redox process allows highly reversible modulation of its (anti)aromatic character. Specifically, the two thioxanthylidene rotors, attached to the initially aromatic indenofluorene scaffold via overcrowded alkenes, adopt an anti-folded structure, which upon oxidation convert to singly bonded, twisted conformations. This is not only associated with significant (chir)optical changes but importantly also results in formation of the fully conjugated, formally antiaromatic as-indacene motif in the helical core of the switch. This process proceeds without the buildup of radical cation intermediates and thus enables highly reversible switching of molecular geometry, aromaticity, absorbance, and chiral expression under ambient conditions, as evidenced by NMR, UV-vis, CD, and (spectro)electrochemical analyses, supported by DFT calculations. We expect this concept to be extendable to a wide range of robust antiaromatic-aromatic switches and to provide a basis for modulation of the structure and properties of these fascinating inherently chiral polycyclic π-scaffolds.
Original language | English |
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Article number | 4c04191 |
Pages (from-to) | 19168–19176 |
Number of pages | 9 |
Journal | Journal of the American Chemical Society |
Volume | 146 |
Issue number | 28 |
Early online date | 2-Jul-2024 |
DOIs | |
Publication status | Published - 17-Jul-2024 |
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CCDC 2341064: Experimental Crystal Structure Determination
Sidler, E. (Contributor), Hein, R. (Contributor), Doellerer, D. (Contributor) & Feringa, B. L. (Contributor), Cambridge Crystallographic Data Centre, 18-Mar-2024
DOI: 10.5517/ccdc.csd.cc2jl26f
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