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超分子笼状含氟 C^N 配体的绿色发光离子型铱(III)配合物及其在发光电化学电池中的应用。

Supramolecularly Caged Green-Emitting Ionic Ir(III)-Based Complex with Fluorinated C^N Ligands and Its Application in Light-Emitting Electrochemical Cells.

机构信息

OSRAM GmbH, CI ANM EU , Berliner Allee 65 , 86153 Augsburg , Germany.

Anorganische Chemie III - Materials Engineering and Characterization, Fakultät für Chemie und Biochemie , Ruhr-Universität Bochum , 44780 Bochum , Germany.

出版信息

ACS Appl Mater Interfaces. 2018 Apr 4;10(13):11026-11036. doi: 10.1021/acsami.7b18159. Epub 2018 Mar 27.

DOI:10.1021/acsami.7b18159
PMID:29190075
Abstract

Ionic Ir(III) complexes are the most promising emitters in light emitting electrochemical cells (LECs), especially in the high energy emission range for which it is difficult to find emitters with sufficient efficiencies and lifetimes. To overcome this challenge, we introduced the concept of intramolecular π-π stacking of an ancillary ligand (6-phenyl-2,2'-bipyridine, pbpy) in the design of a new green-emitting iridium ionic transition metal complex with a fluoro-substituted cyclometallated ligand, 2-(4-fluorophenyl)pyridinato (4Fppy). [Ir(4Fppy)(pbpy)][PF] has been synthesized and characterized and its photophysical and electrochemical properties have been studied. The complex emits green light with maxima at 561 and 556 nm under UV excitation from powder and thin film, respectively, and displays a high photoluminescence quantum yield (PLQY) of 78.5%. [Ir(4Fppy)(pbpy)][PF] based LECs driven under pulsed current conditions showed under an average current density of 100 A m (at 50% duty cycle) a maximum luminance of 1443 cd m, resulting in 14.4 cd A and 7.4 lm W current and power efficiencies, respectively. A remarkable long device lifetime of 214 h was observed. Reducing the average current density to 18.5 A m (at 75% duty cycle) led to an exceptional device performance of 19.3 cd A and 14.4 lm W for current and power efficiencies, an initial maximum luminance of 352 cd m and a lifetime of 617 h.

摘要

离子型 Ir(III) 配合物是发光电化学电池 (LEC) 中最有前途的发光体,特别是在高能发射范围内,很难找到具有足够效率和寿命的发光体。为了克服这一挑战,我们在设计一种新的绿色发光铱离子型过渡金属配合物时引入了辅助配体(6-苯基-2,2'-联吡啶,pbpy)的分子内π-π 堆积的概念,该配体具有氟取代的环金属化配体 2-(4-氟苯基)吡啶并(4Fppy)。[Ir(4Fppy)(pbpy)][PF] 已被合成并进行了表征,并研究了其光物理和电化学性质。该配合物在粉末和薄膜状态下分别在 UV 激发下以 561nm 和 556nm 的最大发射绿光,并显示出 78.5%的高光致发光量子产率(PLQY)。基于[Ir(4Fppy)(pbpy)][PF]的 LEC 在脉冲电流条件下驱动时,在平均电流密度为 100A m(占空比为 50%)下,最大亮度为 1443 cd m,分别对应于 14.4cd A 和 7.4 lm W 的电流和功率效率。观察到 214 h 的显著长器件寿命。将平均电流密度降低至 18.5A m(占空比为 75%)时,可获得 19.3cd A 和 14.4 lm W 的电流和功率效率的出色器件性能、初始最大亮度为 352 cd m 和 617 h 的寿命。

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