Chimie
Tuning the Thermal Stability of Tetra ‐ o– chloroazobenzene Derivatives by Transforming Push‐Pull to Push‐Push Systems
Published on - Chemistry - A European Journal
Abstract Molecular photoswitches provide interesting tools to reversibly control various biological functions with light. Thanks to its small size and easy introduction into the biomolecules, azobenzene derivatives have been widely employed in the field of photopharmacology. All visible‐light switchable azobenzenes with controllable thermostability are highly demanded. Based on the reported tetra ‐ o ‐chloroazobenzenes, we synthesized push‐pull systems, by introducing dialkyl amine and nitro groups as strong electron‐donating and electron‐withdrawing groups on the para ‐positions, and then transformed to push‐push systems by a simple reduction step. The developed push‐pull and push‐push tetra ‐ o ‐chloroazobenzene derivatives displayed excellent photoswitching properties, as previously reported. The half‐life of the Z ‐isomers can be tuned from milliseconds for the push‐pull system to several hours for the push‐push system. The n‐π* and π‐π* transitions have better resolution in the push‐push molecules, and excitation at different wavelengths can tune the E / Z ratio at the photostationary state. For one push‐pull molecule, structure and absorption spectra obtained from theoretical calculations are compared with experimental data, along with data on the push‐push counterpart.