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Synthesis and macrocyclization-induced emission enhancement of benzothiadiazole-based macrocycle

Shuo Li, Kun Liu, Xue-Chen Feng, Zhao-Xian Li, Zhiyuan Zhang, Bin Wang, Minjie Li, Yue‐Ling Bai, Lei Cui, Chunju Li

2022Nature Communications70 citationsDOIOpen Access PDF

Abstract

Abstract We presented an effective and universal strategy for the improvement of luminophore’s solid-state emission, i.e., macrocyclization-induced emission enhancement (MIEE), by linking luminophores through C(sp 3 ) bridges to give a macrocycle. Benzothiadiazole-based macrocycle (BT-LC) has been synthesized by a one-step condensation of the monomer 4,7-bis(2,4-dimethoxyphenyl)−2,1,3-benzothiadiazole (BT-M) with paraformaldehyde, catalyzed by Lewis acid. In comparison with the monomer, macrocycle BT-LC produces much more intense fluorescence in the solid state ( Φ PL = 99%) and exhibits better device performance in the application of OLEDs. Single-crystal analysis and theoretical simulations reveal that the monomer can return to the ground state through a minimum energy crossing point (MECP S1/S0 ), resulting in the decrease of fluorescence efficiency. For the macrocycle, its inherent structural rigidity prohibits this non-radiative relaxation process and promotes the radiative relaxation, therefore emitting intense fluorescence. More significantly, MIEE strategy has good universality that several macrocycles with different luminophores also display emission improvement.

Topics & Concepts

MonomerFluorescenceAggregation-induced emissionPhotochemistryLuminophoreOLEDMaterials scienceExcimerChemistryPolymerNanotechnologyOptoelectronicsLuminescenceOrganic chemistryQuantum mechanicsLayer (electronics)PhysicsOrganic Light-Emitting Diodes ResearchLuminescence and Fluorescent MaterialsOrganic Electronics and Photovoltaics
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