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Mapping the Regioisomeric Space and Visible Color Range of Purely Organic Dual Emitters with Ultralong Phosphorescence Components: From Violet to Red Towards Pure White Light

Bibhisan Roy, Iván Maisuls, Jianyu Zhang, Felix C. Niemeyer, Fabio Rizzo, Christoph Wölper, Constantin G. Daniliuc, Ben Zhong Tang, Cristian A. Strassert, Jens Voskuhl

2021Angewandte Chemie International Edition57 citationsDOIOpen Access PDF

Abstract

Abstract We mapped the entire visible range of the electromagnetic spectrum and achieved white light emission (CIE: 0.31, 0.34) by combining the intrinsic ns‐fluorescence with ultralong ms‐phosphorescence from purely organic dual emitters. We realized small molecular materials showing high photoluminescence quantum yields (Φ L ) in the solid state at room temperature, achieved by active exploration of the regioisomeric substitution space. Chromophore stacking‐supported stabilization of triplet excitons with assistance from enhanced intersystem crossing channels in the crystalline state played the primary role for the ultra‐long phosphorescence. This strategy covers the entire visible spectrum, based on organic phosphorescent emitters with versatile regioisomeric substitution patterns, and provides a single molecular source of white light with long lifetime (up to 163.5 ms) for the phosphorescent component, and high overall photoluminescence quantum yields (up to Φ L =20 %).

Topics & Concepts

PhosphorescenceUltra violetVisible spectrumWhite lightDual (grammatical number)Materials scienceRange (aeronautics)OpticsOptoelectronicsPhysicsPhotochemistryChemistryFluorescenceArtComposite materialLiteratureLuminescence and Fluorescent MaterialsOrganic Light-Emitting Diodes ResearchMolecular Sensors and Ion Detection
Mapping the Regioisomeric Space and Visible Color Range of Purely Organic Dual Emitters with Ultralong Phosphorescence Components: From Violet to Red Towards Pure White Light | Litcius