Cheng-Wei Tai scite author profile

We report on a series of blue and deep-blue emitting zwitterionic iridium(III) complexes, consisting formally of a cationic Ir centre and a N,N 0 -heteroaromatic (N^N) ligand bearing negatively charged side groups, i.e. sulfonate and borate. The synthesis, photophysical and electrochemical properties of this series are described in detail together with their X-ray crystal structure determination. The reported complexes exhibit intense blue (l max at 450 nm) and deep blue (l max at 435 nm) emission in deaerated solution, similar to the related cationic complexes. The strategy employed, namely the internal salt formation, allows high solubility in many organic solvents as well as for some of the complexes a low sublimation temperature. For this reason, one of the complexes was further tested as an emitter in phosphorescent organic light emitting diodes (PhOLEDs). Despite the zwitterionic nature of the triplet emitter employed, the devices were fabricated by means of sublimation process. The devices showed a peak external quantum efficiency (EQE) as high as 11.0% and Commission Internationale d'Énclairage (CIE) coordinates x ¼ 0.21 and y ¼ 0.33.

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Multifunctional carbazolocarbazoles as hole transporting and emitting host materials in red phosphorescent OLEDs

Curiel

Más‐Montoya

Chang

et al. 2013

J. Mater. Chem. C

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A new series of carbazolo [4,3-c]carbazoles (1-3) have been examined as hole-transporting and emitting host materials in the fabrication of red phosphorescent OLEDs (PhOLEDs). The presence of different N-substituents including hydrogen, octyl and 4-butylphenyl attached to the carbazolo[4,3-c]carbazole skeleton was aimed to condition the charge transporting properties. Due to their resemblance in the electronic structure, these carbazolocarbazoles have been compared to a commonly used holetransporting material such as N,N 0 -bis(naphthalen-1-yl)-N,N 0 -bisphenylbenzidine (NPB). Interestingly, the introduced structural differences endow compounds 1-3 with a wide range of hole-mobilities, which provide room for adjusting the carrier balance of OLEDs. Different approaches, including bi-layer and trilayer architectures, have been employed for the successful fabrication of Ir(piq) 2 (acac) doped OLEDs using NPB and these novel carbazolocarbazoles as hole transport and host materials. The simplified bi-layer device demonstrated high performance with maximum efficiencies of 8.7%, 5.6 cd A À1 and 3.4 lm W À1 when using the N-alkylated derivative 2. Furthermore, the red PhOLEDs with tri-layer architecture using 3 as the HTL showed peak efficiencies of 12.2%, 8.7 cd A À1 , and 9.3 lm W À1 . In addition, both compounds 2 and 3 used in OLEDs exhibited superior performance to those of devices using NPB, demonstrating their high potential for employment in phosphorescent OLEDs.

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Aligned energy-level design for decreasing operation voltage of tandem white organic light-emitting diodes

Chang¹,

Wu²,

Liang³

et al. 2013

Thin Solid Films

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Delocalization and Universality of the Fractional Quantum Hall Plateau-to-Plateau Transitions

et al. 2023

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Injection luminescence in N-ion implanted ZnSe

Chung

Tai

1976

Journal of Luminescence

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Cheng-Wei Tai

Highly efficient blue and deep-blue emitting zwitterionic iridium(iii) complexes: synthesis, photophysics and electroluminescence

Multifunctional carbazolocarbazoles as hole transporting and emitting host materials in red phosphorescent OLEDs

Aligned energy-level design for decreasing operation voltage of tandem white organic light-emitting diodes

Delocalization and Universality of the Fractional Quantum Hall Plateau-to-Plateau Transitions

Injection luminescence in N-ion implanted ZnSe

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