Issue 33, 2022

Visible light activated BINOL-derived chiroptical switches based on boron integrated hydrazone complexes

Abstract

Chiral optical switches, which use light to control chirality in a reversible manner, offer unique properties and fascinating prospects in the areas of molecular switching and responsive systems, new photochromic materials and molecular data processing and storage. Herein, we report visible light responsive chiroptical switches based on tetrahedral boron coordination towards an easily accessible hydrazone ligand and optically pure BINOL. Upon instalment of a non-planar dibenzo[a,d]-cycloheptene moiety in the hydrazone ligand's lower half, the enantiopure boron complex shows major chiroptical changes in the CD read-out after visible light irradiation. The thermal isomerization barrier in these chiroptical switching systems showed to be easily adjustable by the introduction of substituents onto the olefinic bond of the cycloheptene ring, giving profound control over their thermal stability. The control over their thermal stability in combination with excellent reversibility, photochemical properties and overall robustness of the complexes makes these BINOL-derived chiroptical switches attractive candidates for usage in advanced applications, e.g. photonic materials and nanotechnology.

Graphical abstract: Visible light activated BINOL-derived chiroptical switches based on boron integrated hydrazone complexes

Supplementary files

Article information

Article type
Edge Article
Submitted
23 Jun 2022
Accepted
30 Jul 2022
First published
10 Aug 2022
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2022,13, 9713-9718

Visible light activated BINOL-derived chiroptical switches based on boron integrated hydrazone complexes

S. van Vliet, G. Alachouzos, F. de Vries, L. Pfeifer and B. L. Feringa, Chem. Sci., 2022, 13, 9713 DOI: 10.1039/D2SC03518A

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