1435909-79-7Relevant academic research and scientific papers
Exploring the self-assembly and energy transfer of dynamic supramolecular iridium-porphyrin systems
Rota Martir, Diego,Hedley, Gordon J.,Cordes, David B.,Slawin, Alexandra M. Z.,Escudero, Daniel,Jacquemin, Denis,Kosikova, Tamara,Philp, Douglas,Dawson, Daniel M.,Ashbrook, Sharon E.,Samuel, Ifor D. W.,Zysman-Colman, Eli
, p. 17195 - 17205 (2016)
We present the first examples of dynamic supramolecular systems composed of cyclometalated Ir(iii) complexes of the form of [Ir(C^N)2(N^N)]PF6 (where C^N is mesppy = 2-phenyl-4-mesitylpyridinato and dFmesppy = 2-(4,6-difluorophenyl)-
Blue-ray iridium complex and preparation method and application thereof
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, (2019/10/01)
The invention discloses a blue-ray iridium complex and a preparation method and application thereof. The blue-ray iridium complex is composed of a difluorophenyl pyridine derivative and 2-picolinic acid through complexing, wherein the difluorophenyl pyrid
Cyclometalated Ir(III) complexes for high-efficiency solution-processable blue PhOLEDs
Kozhevnikov, Valery N.,Zheng, Yonghao,Clough, Matthew,Al-Attar, Hameed A.,Griffiths, Gareth C.,Abdullah, Khalid,Raisys, Steponas,Jankus, Vygintas,Bryce, Martin R.,Monkman, Andrew P.
, p. 2352 - 2358 (2013/07/27)
This article reports the systematic functionalization of FIrpic (1) with solubilizing alkyl groups (complexes 2-4) or mesityl groups (complexes 5 and 6). Complex 5 is shown to offer significant advantages over FIrpic (1) in terms of performance of sky-blue polymer-based phosphorescent organic light-emitting diodes (PhOLEDs) with a solution-processed emitting layer (λ maxEL 477 nm for 5). Devices with 5 doped into poly(vinylcarbazole) (PVK):OXD-7 gave a maximum luminous efficiency of 19.1 cd A-1 at a brightness of 5455 cd m2 with EQE 8.7%. Optimized multilayer devices with additional TPBi and LiF layers gave 23.7 cd A -1 and EQE 10.4%. These data compare favorably with leading literature values for sky-blue polymer-based PhOLEDs. The enhanced performance of 5 is ascribed to three main reasons: (i) reduced concentration quenching of 5; (ii) the higher radiative yield of 5; and (iii) improved solubility of 5 in organic solvents. Complex 5 should find widespread use as a soluble blue phosphor for displays and lighting applications using solution processing techniques.
