Exhaustive catalytic ortho-alkoxylation of azobenzenes: flexible access to functionally diverse yellow-light-responsive photoswitches

Abstract: We develop the first method for catalytic, exhaustive ortho-alkoxylation of azobenzene photoswitches. Alkoxylation is known to improve the photoswitch properties that control azobenzenes' success in chemical biology or materials sciences: e.g. better completeness of both E→Z and Z→E photoisomerisations, and >100 nm red-shifting of photoresponse. Our method enables straightforward late-stage diversification of photoswitches with interesting functional handles. We showcase four applications, using it to ratio… Show more

“…Continuing our work in polyalkoxylated photopharmaceuticals, ,, but wanting to avoid polyphenol alkylations (see Supporting Note 1), we here aimed at a late-stage, exhaustive ortho -alkoxylation procedure for azobenzenes. An initial version of this work was deposited on ChemRxiv on February 21, 2022, ref .…”

Exhaustive Catalytic ortho-Alkoxylation of Azobenzenes: Flexible Access to Functionally Diverse Yellow-Light-Responsive Photoswitches

“…Continuing our work in polyalkoxylated photopharmaceuticals, ,, but wanting to avoid polyphenol alkylations (see Supporting Note 1), we here aimed at a late-stage, exhaustive ortho -alkoxylation procedure for azobenzenes. An initial version of this work was deposited on ChemRxiv on February 21, 2022, ref .…”

Exhaustive Catalytic ortho-Alkoxylation of Azobenzenes: Flexible Access to Functionally Diverse Yellow-Light-Responsive Photoswitches