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Highly Efficient Deep Blue Phosphorescent OLEDs Based on Tetradentate Pt(II) Complexes Containing Adamantyl Spacer Groups

Jin‐Suk Huh, Min Jae Sung, Soon‐Ki Kwon, Yun‐Hi Kim, Jang‐Joo Kim

2021Advanced Functional Materials117 citationsDOI

Abstract

Abstract Tetradentate Pt(II) complexes are promising emitters for deep blue organic light‐emitting diodes (OLEDs) due to their emission energy and high photoluminescence efficiency. However, to obtain a pure blue color, spectral red‐shifts, and additional emission peaks at longer wavelengths, originating from strong intermolecular interactions between parallel Pt(II) complexes, must be avoided. Herein, a new class of deep‐blue emitting tetradentate Pt(II) complexes consisting of a non‐planar ligand and a bulky adamantyl group is reported. The six‐membered metallacycle structure renders the Pt(II) complex non‐planar. In addition, the bulky adamantyl groups increase intermolecular distances and decrease red‐shifts in the emission originating from strong dipole–dipole interactions. Therefore, these Pt(II) complexes exhibit little change in emission color with increasing dopant concentration. OLEDs incorporating these new Pt(II) complexes as emitters exhibit deep blue emission with a Commission International de L'Eclairage (CIE) y under 0.13 and a maximum external quantum efficiency of 22.6%, which is one of the highest observed for deep blue (CIE y < 0.15) phosphorescent OLEDs using Pt(II) complexes. These results provide a new approach for designing Pt(II) complexes for high efficiency deep blue OLEDs.

Topics & Concepts

OLEDPhosphorescenceMaterials sciencePhotoluminescenceIntermolecular forceBlueshiftDopantPhotochemistryDeep blueLigand (biochemistry)CrystallographyOptoelectronicsMoleculeDopingFluorescenceNanotechnologyChemistryOpticsPhysicsOrganic chemistryBiochemistryReceptorLayer (electronics)Organic Light-Emitting Diodes ResearchOrganometallic Complex Synthesis and CatalysisLuminescence and Fluorescent Materials
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