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Host‐Dependent Tunable Phosphorescence Based on Aromatic Heterocyclic Derivatives: Highly Efficient and Photo‐Activated Ultralong Organic Phosphorescence

Huanyu Yang, Yuefei Wang, Ying Wang, Zaiyong Zhang, Huili Ma, Yoshihiro Yamauchi, Kejia Ling, Yi Zhao, Suzhi Cai, Zhongfu An, Wei Huang

2025Advanced Materials22 citationsDOIOpen Access PDF

Abstract

Achieving high phosphorescence efficiency and photo-activated ultralong organic phosphorescence (UOP) based on the same molecule remains a formidable challenge. Here, a concise strategy is proposed to obtain highly efficient and photo-activated RTP by doping aromatic heterocyclic derivatives into different polymers. Aromatic heterocyclic derivatives are doped into PAM, PVA, or PAA polymers to produce high phosphorescence efficiency. Impressively, the highest phosphorescence quantum yield can reach up to 66.2% at room temperature, which can be attributed to isolating the chromophore to reduce the excimer and the rigid environment from the polymer to restrict the non-radiative transitions. In addition, phosphorescence emission color can be tailored from green to deep blue by varying the guests. After aromatic heterocyclic derivatives are doped into PDMA or PVP, the phosphorescence lifetime is prolonged from 1.2 to 578.6 ms. These polymers are successfully applied to multicolor displays and high-level information storage. This work provides a reasonable strategy to develop highly efficient and photo-activated RTP materials based on the same molecule.

Topics & Concepts

PhosphorescenceMaterials sciencePersistent luminescencePhotochemistryPhosphorescent organic light-emitting diodeOptoelectronicsNanotechnologyOLEDLuminescenceFluorescenceOpticsChemistryThermoluminescencePhysicsLayer (electronics)Luminescence and Fluorescent MaterialsOrganic Light-Emitting Diodes ResearchMolecular Sensors and Ion Detection
Host‐Dependent Tunable Phosphorescence Based on Aromatic Heterocyclic Derivatives: Highly Efficient and Photo‐Activated Ultralong Organic Phosphorescence | Litcius