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Aggregation-Induced Emission Enhancement and Solid-State Photoswitching of Crystalline Carbazole <i>N</i>-Salicylidene Anilines

Dazaet Galicia‐Badillo, José L. Belmonte‐Vázquez, Mario Rodríguez, Braulio Rodríguez‐Molina, Ma. Carmen García‐González

2024ACS Omega15 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The development of fluorescent stimuli-responsive organic materials has attracted substantial interest due to their increasing optoelectronic applications. This study systematically introduces fluorine atoms on one end of carbazole-based N -salicylidene anilines 5a – 5f to elucidate the impact in their solution and solid-state photophysics. The addition of fluorine atoms at one end of the molecule induced significant changes, for example, a reduction in the quantum yield (QY) fluorescence emission in solution, going from QY near unity in compound 5a (QY ∼ 100%) to a negligible emission in 5f (QY < 1%). Similarly, compound 5a showed a very strong aggregation-induced enhancement emission behavior, whereas compounds with a higher fluorine content were almost quenched. Furthermore, the crystalline solid-state photoisomerization in N -salicylidene anilines is not trivial, and only compounds with three ( 5e ) and five fluorine atoms ( 5f ) exhibited reversible solid-state photoisomerization under 405 nm light source irradiation. We propose that the presence of the arene-perfluoroarene interaction in the crystalline array facilitates the latter behavior. Our findings present a comprehensive study of crystal engineering for the obtention of photoswitchable crystalline materials and adjustable photophysics response, paving the way for its implementation in other systems.

Topics & Concepts

PhotoisomerizationCarbazolePhotochemistryFluorineQuantum yieldFluorescenceSolid-stateChemistryMoleculeMaterials sciencePhysical chemistryOrganic chemistryOpticsIsomerizationPhysicsCatalysisLuminescence and Fluorescent MaterialsPhotochromic and Fluorescence ChemistryPolydiacetylene-based materials and applications
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