Zhaokang Fan scite author profile

A novel bipolar oligomer (TPA-PO)3 was prepared as a host material for efficient blue phosphorescent organic light-emitting diodes (OLEDs). Through the C-9s of the fluorene units, three triphenylamine units attached to diphenylphosphine oxide are connected in series to form a macrocyclic structure. The solution-processed phosphorescent device based on FIrpic and (TPA-PO)3 achieved a maximum current efficiency of 19.4 cd A(-1) and a maximum luminance of 11,500 cd m(-2) with a relatively low efficiency roll-off.

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Synthesis and Characterization of Bipolar Hosts Based on Triphenylamine and 4,5- Diazafluorene Through Friedel-Crafts Reaction

Li¹,

Chen²,

Fan³

et al. 2015

COS

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Pyrene‐functionalized oligofluorenes as non‐doped deep blue emitters for solution‐processed organic light‐emitting diodes

Fan

Quan

et al. 2015

J. Polym. Sci. Part A: Polym. Chem.

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Two pyrene-functionalized oligofluorenes (TPA-PyF 3 and CBP-PyF 3 ) are prepared using the condensation reaction by the Friedel-Crafts procedure. In the produced oligomers, the triphenylamine or N,N 0 -dicarbazolyl-4,4 0 -biphenyl core serves as a spacer bearing spiro-linked fluorene moieties to form a multi-H shaped structure. This specific structure efficiently retards the crystallization tendency of the pyrene groups, and gives the materials completely amorphous morphological structure and film forming ability. 2 However, due to their intrinsically wide band gap, it is difficult to develop primary blue emitters with high efficiency, high color purity, and long lifetime, which is the bottleneck in achieving full-color displays.3 As for the choice of the blue emitters, blue fluorescent emitters are often used instead of phosphorescent transition metal complexes due to their better color purity and longer operating lifetime in full-color devices.4 Therefore, the fabrication of blue fluorescent emitters, especially stable deep blue emitters, is still of great importance for full color displays.

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Tuning Charge Balance in Solution-Processable Bipolar Triphenylamine-diazafluorene Host Materials for Phosphorescent Devices

Fan¹,

Zhao²,

Li³

et al. 2015

ACS Appl. Mater. Interfaces

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Three bipolar hosts, namely TPA-DAF, TPA-DAF2, and TPA-DAF3, comprising an electron-donating triphenylamine (TPA) group and electron-accepting 4,5-diazafluorene (DAF) units are investigated for phosphorescent organic light-emitting diodes (PhOLEDs). Given the nonplanar structure of the sp(3)-hybridized C9 atom in DAF unit, these molecules have a highly nonplanar configuration, good film-forming property, and high triplet energy (ET) of 2.88-2.89 eV. Among them, TPA-DAF shows more balanced carrier injecting/transporting ability, suitable highest occupied molecular orbital (MO) energy level and higher current density, and therefore TPA-DAF-based devices exhibit the best performances, having an extremely slight efficiency roll-off with current efficiency of 20.0 cd/A at 973 cd/m(2), 19.5 cd/A at 5586 cd/m(2), and 17.6 cd/A at 9310 cd/m(2) for blue PhOLEDs; 23.5 cd/A at 1059 cd/m(2) and 15.3 cd/A at 8850 cd/m(2) for green PhOLEDs; and 12.2 cd/A at 1526 cd/m(2), 10.5 cd/A at 5995 cd/m(2), and 9.2 cd/A at 8882 cd/m(2) for red PhOLEDs, respectively. The results also provide a direct proof for the influence of charge balance on the device performance.

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Zhaokang Fan

A solution-processable triphenylamine-fluorene host for exciplex based white phosphorescent organic light-emitting diodes

Macrospirocyclic Oligomer Based on Triphenylamine and Diphenylphosphine Oxide as a Bipolar Host for Efficient Blue Electrophosphorescent Organic Light-Emitting Diodes (OLEDs)

Synthesis and Characterization of Bipolar Hosts Based on Triphenylamine and 4,5- Diazafluorene Through Friedel-Crafts Reaction

Pyrene‐functionalized oligofluorenes as non‐doped deep blue emitters for solution‐processed organic light‐emitting diodes

Tuning Charge Balance in Solution-Processable Bipolar Triphenylamine-diazafluorene Host Materials for Phosphorescent Devices

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