Photoefficient 2nd generation molecular motors responsive to visible light

Lukas Pfeifer; Maximilian Scherübl; Maximilian Fellert; Wojciech Danowski; Jinling Cheng; Jasper Pol; Ben L Feringa

doi:10.1039/c9sc02150g

Photoefficient 2^nd generation molecular motors responsive to visible light

Chem Sci. 2019 Aug 9;10(38):8768-8773. doi: 10.1039/c9sc02150g. eCollection 2019 Oct 14.

Authors

Lukas Pfeifer¹, Maximilian Scherübl¹, Maximilian Fellert¹, Wojciech Danowski¹, Jinling Cheng¹, Jasper Pol¹, Ben L Feringa¹

Affiliation

¹ Stratingh Institute for Chemistry , University of Groningen , Nijenborgh 4 , 9747 AG Groningen , The Netherlands . Email: b.l.feringa@rug.nl.

Abstract

Molecular motors that operate with high efficiency using visible light are attractive for numerous applications. Here the synthesis and characterisation of three novel visible light switchable 2^nd generation molecular motors is presented. Two of them are based on push-pull systems with the third one possessing an extended π-system. With a maximum effective excitation wavelength of 530 nm we designed the most red-shifted artificial rotary motor known to date. All three motors benefit from efficient switching to the metastable isomer, high quantum yields and excellent photostability setting them apart from visible light switchable motors reported previously. The activation barriers of the rate-determining thermal helix inversion could be accurately predicted using DFT calculations and differences between the motors can be explained by distinct transition state structures. Enantiomers of push-pull motors were successfully separated and their helical twisting power in E7 liquid crystals was determined.