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Journal of Inorganic Materials, Volume. 40, Issue 1, 111(2025)

Long-range Ordered Films Boost Efficient Perovskite Quantum Dot Light-emitting Devices

Xinyi LÜ, Hengyang XIANG, and Haibo ZENG
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[1] DE ARQUER F P G, TALAPIN D V, KLIMOV V I et al. Semiconductor quantum dots: technological progress and future challenges. Science, eaaz8541(2021).

[2] PROTEESESCU L, YAKUNIN S, BODNARCHUK M I et al. Nanocrystals of cesium lead halide perovskites (CsPbX3, X = Cl, Br, and I): novel optoelectronic materials showing bright emission with wide color gamut. Nano Letters, 3692(2015).

[3] JIANG J, ZHANG S, SHAN Q et al. High-color-rendition white QLEDs by balancing red, green and blue centre in eco-friendly ZnCuGaS:In@ZnS quantum dots. Advanced Materials, 2304772(2024).

[5] ZHOU Y, FANG T, LIU G et al. Perovskite anion exchange: a microdynamics model and a polar adsorption strategy for precise control of luminescence color. Advanced Functional Materials, 2106871(2021).

[6] SHAN Q, DONG Y, XIANG H et al. Perovskite quantum dots for the next-generation displays: progress and prospect. Advanced Functional Materials, 2401284(2024).

[7] FENG Y F, LI H J, ZHU M Y et al. Nucleophilic reaction-enabled chloride modification on CsPbI3 quantum dots for pure red light-emitting diodes with efficiency exceeding 26%. Angewandte Chemie International Edition(2024).

[8] NONG Y Y, YAO J S, LI J Q et al. Boosting external quantum efficiency of blue perovskite QLEDs exceeding 23% by trifluoroacetate passivation and mixed hole transportation design. Advanced Materials, 2402325(2024).

[9] YANG S X, LI J, WANG J F et al. Lowing surface steric hindrance of strongly-confined perovskite quantum dots enables efficient pure-red light-emitting diodes. Chemical Engineering Journal, 150799(2024).

[10] WANG R, XIANG H, LI Y et al. Minimizing energy barrier in intermediate connection layer for monolithic tandem WPeLEDs with wide color gamut. Advanced Functional Materials, 2215189(2023).

[11] WANG R, XIANG H Y, ZENG H B. Carrier balanced distribution regulation of multi-emissive centers in tandem PeLEDs. Journal of Inorganic Materials, 1062(2023).

[12] KIM J, ROH J, PARK M et al. Recent advances and challenges of colloidal quantum dot light-emitting diodes for display applications. Advanced Materials, 2212220(2024).

[13] CHEN X, LIN X, ZHOU L et al. Blue light-emitting diodes based on colloidal quantum dots with reduced surface-bulk coupling. Nature Communications, 284(2023).

[14] WANG Y K, WAN H Y, TEEALE S et al. Long-range order enabled stability in quantum dot light-emitting diodes. Nature, 586(2024).

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Xinyi LÜ, Hengyang XIANG, Haibo ZENG. Long-range Ordered Films Boost Efficient Perovskite Quantum Dot Light-emitting Devices[J]. Journal of Inorganic Materials, 2025, 40(1): 111

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Paper Information

Category: RESEARCH HIGHLIGHT

Received: Aug. 12, 2024

Accepted: --

Published Online: Apr. 24, 2025

The Author Email:

DOI:10.15541/jim20240372

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laser devices and laser physics
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Laser physics
laser manufacturing
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