All Visible Light Switch Based on the Dimethyldihydropyrene Photochromic Core
Margot Jacquet, Lucas M. Uriarte, Frédéric Lafolet, Martial Boggio‐Pasqua, Michel Sliwa, Frédérique Loiseau, Eric Saint‐Aman, Saioa Cobo, Guy Royal
Abstract
Two photoswitchable compounds that can operate under visible light irradiation are prepared and investigated using spectroscopic and computational studies. These all-visible systems are based on the dimethyldihydropyrene (DHP)/cyclophanediene (CPD) photochromic couple connected either to a bipyridine (bpy) unit or to a (tris(bpy)ruthenium(II)) complex through a pyridinium bridge. In these compounds, the DHP to CPD isomerization and the reverse CPD to DHP conversion can be triggered by illumination with red (>630 nm) and blue (460 nm) lights, respectively. The unambiguous and reversible response of these systems triggered by visible light make them potential candidates for biological purposes and electronic devices.