All-Solution-Processed Multilayered White Polymer Light-Emitting Diodes (WPLEDs) Based on Cross-Linked [Ir(4-vb-PBI)<sub>2</sub>(acac)]

Li, Wentao; He, Yong; Miao, Tiezheng; Lü, Xingqiang; Fu, Guorui; Wong, Wai Yeung; He, Hongshan

doi:10.1021/acsami.0c16581

ACS Appl. Mater. Interfaces

2021

DOI: 10.1021/acsami.0c16581

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All-Solution-Processed Multilayered White Polymer Light-Emitting Diodes (WPLEDs) Based on Cross-Linked [Ir(4-vb-PBI)₂(acac)]

Wentao Li

Yong He

Tiezheng Miao

et al.

Abstract: All-solution-processed multilayered white polymer light-emitting diodes (WPLEDs) are promising candidates for low-cost and large-area flexible full-color flat-panel displays and solid-state lighting. However, it is still challenging to improve their performance. In this work, based on an elegant strategy of orthogonal materials, the utilization of the cross-linked Ir3+ polymer film poly(NVK-co-[Ir(4-vb-PBI) 2 (acac)]- co -NVK) (NVK = N-vinyl-carbazole; 4-vb-HPBI = 1-(4-vinylbenzyl)-2-phenyl-1H-benzo[d]… Show more

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Cited by 5 publications

(2 citation statements)

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“…[15][16][17] In particular, much interest has been received on polymer-based WOLEDs due to their flexible display, simple device fabrication, low-cost solution-processed technologies, and ability for large area manufacturing. [18][19][20] Recently, Ying's group introduced simple bilayer structure WPLEDs with a ternary blend layer containing polyfluorene derivatives of blue light-emitting PFO-TF, green light-emitting PFO-BT8, and red light-emitting PFO-DHTBT5, and the resulting devices exhibited a color-tunable white lighting maximum current efficiency of 9.22 cd A −1 . [21] Very recently, Wong's group produced single Zn(II)-complex-grafted polymer poly(NVK-co-[Zn 2 (MP) 3 (OAc)])-based WPLEDs-emitting stable white light (CIE coordinates of x = 0.30, y = 0.33) at different driving voltages.…”

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confidence: 99%

Standard White CP‐OLEDs Performance Achieved by Intramolecular Chirality Transfer Mechanism through Polymer Chain

Jing

Quan

et al. 2022

Advanced Optical Materials

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In this work, a chiral functionalized bis‐benzoxanethonyl unit is introduced into three conjugated polymer backbones (S‐/R‐BP, S‐/R‐WP1, and S‐/R‐WP2) as the emitting layers (EMLs) of organic light‐emitting diodes (OLEDs) to construct full‐color circularly polarized electroluminescence (CP‐EL) by solution‐processing. Interestingly, standard white CP‐EL based on the monodispersed S‐/R‐WP2 achieves a high color rendering index of 95 at CIE coordinates of (0.33, 0.34). The CP‐OLED performances show the turn‐on voltage of ≈5.8 V, high maximum luminance of ≈3000 cd m−2, and stable gEL value of 10−3 in the wavelength range of 425–760 nm. This work is the first example to realize standard white CP‐OLEDs by intramolecular chirality transfer mechanism from chiral blue‐color moiety to achiral red‐color dye through polymer chain, which provides a valuable strategy to develop white CP‐EL for potential lighting and full‐color 3D displays.

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confidence: 99%

Standard White CP‐OLEDs Performance Achieved by Intramolecular Chirality Transfer Mechanism through Polymer Chain

Jing

Quan

et al. 2022

Advanced Optical Materials

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“…Solution processes are considered promising alternatives for achieving large-area uniform organic films through cost-effective methods. [6][7][8][9][10][11] However, new technical challenges arise when a solution process is applied to form the active layer of WOLEDs that requires the use of mixed colors. A blend solution of luminophores combining various colors may be processed to form the WOLED active layer.…”

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confidence: 99%

Two‐Color Strip‐Patterned White OLEDs: Tunable Color‐Temperature via Pattern Dimension Control

Han

Lee

Jang

et al. 2022

Advanced Optical Materials

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White light is attained by combining different‐colored emissions. White organic light‐emitting diodes, therefore, should be fabricated to obtain mixed emissions from different organic luminophores while suppressing energy transfer between each other. Here, the authors present a simple means to realize this goal by forming two‐color strip‐patterns of light‐emitting polymer (orange) and an iridium complex (sky‐blue) luminophores entirely through solution processes. The formation of the two‐color patterns is facilitated by i) the use of a highly efficient crosslinker permitting the construction of structurally robust orange primary strip‐patterns and ii) the contrast in the surface energy allowing selective wetting of the secondary sky‐blue patterns between the orange primary patterns. The emissive layer comprising the two‐color strip ‐patterns allows for the mixing ratio of the two colors to be adjusted by simply varying the areal ratio of the two patterns, which in turn, controls the white emission color‐temperature from 2119 to 7994 K.

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One new [Ir(C^N)2(N^O)] Ir(III)-complex with efficient deep-red light: Forwards to high-performance all-solution-processed polymer light-emitting diodes

Chen,

Hou,

Zhang

et al. 2024

Journal of Organometallic Chemistry

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All-Solution-Processed Multilayered White Polymer Light-Emitting Diodes (WPLEDs) Based on Cross-Linked [Ir(4-vb-PBI)₂(acac)]

Cited by 5 publications

References 71 publications

Standard White CP‐OLEDs Performance Achieved by Intramolecular Chirality Transfer Mechanism through Polymer Chain

Standard White CP‐OLEDs Performance Achieved by Intramolecular Chirality Transfer Mechanism through Polymer Chain

Two‐Color Strip‐Patterned White OLEDs: Tunable Color‐Temperature via Pattern Dimension Control

One new [Ir(C^N)2(N^O)] Ir(III)-complex with efficient deep-red light: Forwards to high-performance all-solution-processed polymer light-emitting diodes

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All-Solution-Processed Multilayered White Polymer Light-Emitting Diodes (WPLEDs) Based on Cross-Linked [Ir(4-vb-PBI)2(acac)]

Cited by 5 publications

References 71 publications

Standard White CP‐OLEDs Performance Achieved by Intramolecular Chirality Transfer Mechanism through Polymer Chain

Standard White CP‐OLEDs Performance Achieved by Intramolecular Chirality Transfer Mechanism through Polymer Chain

Two‐Color Strip‐Patterned White OLEDs: Tunable Color‐Temperature via Pattern Dimension Control

One new [Ir(C^N)2(N^O)] Ir(III)-complex with efficient deep-red light: Forwards to high-performance all-solution-processed polymer light-emitting diodes

Contact Info

Product

Resources

About

All-Solution-Processed Multilayered White Polymer Light-Emitting Diodes (WPLEDs) Based on Cross-Linked [Ir(4-vb-PBI)₂(acac)]