Abstract
Inspired by the excellent photochemical characteristics exhibited by salicylaldehyde azine (SAA) derivatives, our current endeavour primarily revolves around delving into the intricacies of photo-induced excited state reactions for its electron-donating and electron-withdrawing moieties derivatives (i.e. CN-SAA-CN, CN-SAA-TPA and TPA-SAA-TPA). Our simulations reveal push–pull-substituted-dependent photoexcitation that could significantly affect excited state intramolecular proton transfer (ESIPT) reaction for SAA derivatives. Constructing potential energy surfaces (PESs), we unveil the ultrafast ESIPT mechanism due to the low potential barriers. Additionally, by comparing the differences of barriers among CN-SAA-CN, CN-SAA-TPA and TPA-SAA-TPA, we present regulative manner for SAA derivatives by substituting electron-donating and electron-withdrawing moieties. We sincerely anticipate that the modulation of push–pull substitutions on excited state behaviours will pave the way for ground-breaking advancements in luminescent materials.
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