Hybrid Design of Light‐Emitting Diodes in Tandem Structures

Xie, Yue‐Min; Liao, Liang‐Sheng; Fung, Man‐Keung

doi:10.1002/adfm.202401789

Adv Funct Materials

2024

DOI: 10.1002/adfm.202401789

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Hybrid Design of Light‐Emitting Diodes in Tandem Structures

Yue‐Min Xie,

Liang‐Sheng Liao,

Man‐Keung Fung

Abstract: Organic light‐emitting diodes in tandem structures (TOLEDs) have long been an effective strategy to realize multifold increased electroluminescence (EL) efficiency relative to the single‐unit OLEDs, making TOLEDs promising candidates for lighting and display applications. Benefitted from the development of organic emitters, hybrid tandem OLEDs (HTOLEDs) composing two or more types of OLED emitters (phosphorescence, fluorescence, and thermally‐activated delayed fluorescence (TADF)) are developed. The different … Show more

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Cited by 3 publications

References 110 publications

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Solution Processed Bilayer Metal Halide White Light Emitting Diodes

Liu,

Shonde,

Olasupo

et al. 2024

Advanced Materials

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Metal halide perovskites and perovskite‐related organic metal halide hybrids (OMHHs) have recently emerged as a new class of luminescent materials for light emitting diodes (LEDs), owing to their unique and remarkable properties, including near‐unity photoluminescence quantum efficiencies, highly tunable emission colors, and low temperature solution processing. While substantial progress has been made in developing monochromatic LEDs with electroluminescence across blue, green, red, and near‐infrared regions, achieving highly efficient and stable white electroluminescence from a single LED remains a challenging and under‐explored area. Here, a facile approach to generating white electroluminescence is reported by combining narrow sky‐blue emission from metal halide perovskites and broadband orange/red emission from zero‐dimensional (0D) OMHHs. For the proof of concept, utilizing TPPcarz+ passivated two‐dimensional (2D) CsPbBr3 nanoplatelets (NPLs) as sky blue emitter and 0D TPPcarzSbBr4 as orange/red emitter (TPPcarz+ = triphenyl (9‐phenyl‐9H‐carbazol‐3‐yl) phosphonium), white LEDs (WLEDs) with a solution processed bilayer structure have been fabricated to exhibit a peak external quantum efficiency (EQE) of 4.8% and luminance of 1507 cd m−2 at the Commission Internationale de L'Eclairage (CIE) coordinate of (0.32, 0.35). This work opens a new pathway for creating highly efficient and stable WLEDs using metal halide perovskites and related materials.

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Solution Processed Bilayer Metal Halide White Light Emitting Diodes

Liu,

Shonde,

Olasupo

et al. 2024

Advanced Materials

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Multiple Carbazole‐Benzonitrile (CzBN) Derived TADF Molecules Targeting Efficient and Stable Blue OLEDs

Zhang,

Duan,

Zhang

2024

Chemistry An Asian Journal

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Thermally activated delayed fluorescence (TADF) materials have emerged as a promising avenue for developing efficient and stable blue organic light‐emitting diodes (OLEDs) without incorporating heavy metals. Among the numerous donor‐acceptor architectures explored, the carbazole (Cz) and benzonitrile (BN) combination has demonstrated exceptional potential for blue OLED applications. Herein, we delve into the recent advances in TADF materials based on the Cz‐BN framework, with a particular focus on design strategies to accelerate exciton dynamics and improve material stability through kinetic and thermodynamic optimization. Eventually, challenges associated with the Cz‐BN systems in blue OLEDs, as well as prospective research directions that could unlock the full potential of this intriguing category of materials, are also discussed.

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The Rise of Tandem Perovskite Light‐Emitting Diode

Lim,

Chen,

Wei

2024

Small

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In 2024, tandem perovskite light‐emitting diodes (tandem‐PLEDs) achieved a breakthrough external quantum efficiency of 43.42%, with an organic electroluminescence (EL) unit stacked atop a perovskite EL unit, surpassing the previous single‐junction perovskite LEDs. This innovative design enables a higher brightness at lower currents, enhancing the longevity and efficiency of the tandem‐PLEDs. Additionally, the tandem‐PLEDs can also be fabricated by combining a perovskite EL unit with a perovskite quantum dot unit. In this perspective, the key advancements in tandem‐PLEDs are highlighted, focusing on the development of perovskite‐organic materials, perovskite‐perovskite quantum dots, and the design principles for obtaining efficient and stable charge generation layers. But more importantly, the challenges and solutions are discussed in fabricating all‐perovskite tandem LEDs using strongly polar solvents that have yet to be reported nowadays. This comprehensive guide aims to support researchers in advancing the practical deployment of tandem‐PLED technology.

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Hybrid Design of Light‐Emitting Diodes in Tandem Structures

Cited by 3 publications

References 110 publications

Solution Processed Bilayer Metal Halide White Light Emitting Diodes

Solution Processed Bilayer Metal Halide White Light Emitting Diodes

Multiple Carbazole‐Benzonitrile (CzBN) Derived TADF Molecules Targeting Efficient and Stable Blue OLEDs

The Rise of Tandem Perovskite Light‐Emitting Diode

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