Halide perovskite-polymer composite film for bright and stable light-emitting devices

Maoding Cheng; Brooke Robinson; Manoj Shah; Emad Omar Badradeen; Araceli Herrera Mondragon; Roberto Gonzalez Rodriguez; Jingbiao Cui; Yuankun Lin; Anupama B. Kaul; Fumiya Watanabe; Grant Wangila; Mansour Mortazavi; Chao Yan; Zhanhu Guo; Qinglong Jiang

doi:10.1007/s42114-025-01294-1

Halide perovskite-polymer composite film for bright and stable light-emitting devices

Maoding Cheng, Brooke Robinson, Manoj Shah, Emad Omar Badradeen, Araceli Herrera Mondragon, Roberto Gonzalez Rodriguez, Jingbiao Cui, Yuankun Lin, Anupama B. Kaul, Fumiya Watanabe, Grant Wangila, Mansour Mortazavi, Chao Yan^*, Zhanhu Guo^*, Qinglong Jiang^*

^*Corresponding author for this work

Mechanical and Construction Engineering Department

Research output: Contribution to journal › Article › peer-review

Abstract

Stability is the primary hindrance for the application of halide perovskite material in light-emitting devices, solar cells, and other devices. In this work, halide perovskite and polymer composite film have been prepared for stable and bright light-emitting devices. Pure-phase Cs4PbBr6 crystals have been synthesized, and their photoluminescence (PL) properties and fluorescence lifetimes have been investigated. The Cs4PbBr6 crystals exhibited high uniformity but underwent rapid photodegradation under light irradiation. To address this issue, we prepared bright light-emitting devices using composite of Cs4PbBr6 crystals and polyethylene oxide (PEO) as the emission layer. The aim was to improve the optical and physical properties of halide perovskites, such as photodegradation and stability. PEO, with its excellent film-forming ability, created a uniform and dense film on the halide perovskite surface, filling microscopic defects and providing a protective barrier. FTIR, morphology, and PL analyses confirmed the protective role of the halide perovskite and polymer composite film. The composite film light-emitting devices demonstrated improved stability and higher PL brightness, with a peak brightness approaching 3 × 108 cd/m2, which was approximately 75% higher than the pure halide perovskite devices.

Original language	English
Article number	213
Number of pages	9
Journal	Advanced Composites and Hybrid Materials
Volume	8
Issue number	2
Early online date	20 Mar 2025
DOIs	https://doi.org/10.1007/s42114-025-01294-1
Publication status	Published - 1 Apr 2025

Keywords

Polyethylene oxide
Cs4PbBr6
Luminance
Composite film
Light-emitting device
Perovskite
Cs PbBr

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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s42114-025-01294-1Final published version, 1.49 MBLicence: CC BY-NC-ND

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Cheng, M., Robinson, B., Shah, M., Badradeen, E. O., Mondragon, A. H., Rodriguez, R. G., Cui, J., Lin, Y., Kaul, A. B., Watanabe, F., Wangila, G., Mortazavi, M., Yan, C., Guo, Z., & Jiang, Q. (2025). Halide perovskite-polymer composite film for bright and stable light-emitting devices. Advanced Composites and Hybrid Materials, 8(2), Article 213. https://doi.org/10.1007/s42114-025-01294-1

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title = "Halide perovskite-polymer composite film for bright and stable light-emitting devices",

abstract = "Stability is the primary hindrance for the application of halide perovskite material in light-emitting devices, solar cells, and other devices. In this work, halide perovskite and polymer composite film have been prepared for stable and bright light-emitting devices. Pure-phase Cs4PbBr6 crystals have been synthesized, and their photoluminescence (PL) properties and fluorescence lifetimes have been investigated. The Cs4PbBr6 crystals exhibited high uniformity but underwent rapid photodegradation under light irradiation. To address this issue, we prepared bright light-emitting devices using composite of Cs4PbBr6 crystals and polyethylene oxide (PEO) as the emission layer. The aim was to improve the optical and physical properties of halide perovskites, such as photodegradation and stability. PEO, with its excellent film-forming ability, created a uniform and dense film on the halide perovskite surface, filling microscopic defects and providing a protective barrier. FTIR, morphology, and PL analyses confirmed the protective role of the halide perovskite and polymer composite film. The composite film light-emitting devices demonstrated improved stability and higher PL brightness, with a peak brightness approaching 3 × 108 cd/m2, which was approximately 75% higher than the pure halide perovskite devices.",

keywords = "Polyethylene oxide, Cs4PbBr6, Luminance, Composite film, Light-emitting device, Perovskite, Cs PbBr",

author = "Maoding Cheng and Brooke Robinson and Manoj Shah and Badradeen, {Emad Omar} and Mondragon, {Araceli Herrera} and Rodriguez, {Roberto Gonzalez} and Jingbiao Cui and Yuankun Lin and Kaul, {Anupama B.} and Fumiya Watanabe and Grant Wangila and Mansour Mortazavi and Chao Yan and Zhanhu Guo and Qinglong Jiang",

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doi = "10.1007/s42114-025-01294-1",

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AU - Cheng, Maoding

AU - Robinson, Brooke

AU - Shah, Manoj

AU - Badradeen, Emad Omar

AU - Mondragon, Araceli Herrera

AU - Rodriguez, Roberto Gonzalez

AU - Cui, Jingbiao

AU - Lin, Yuankun

AU - Kaul, Anupama B.

AU - Watanabe, Fumiya

AU - Wangila, Grant

AU - Mortazavi, Mansour

AU - Yan, Chao

AU - Guo, Zhanhu

AU - Jiang, Qinglong

PY - 2025/4/1

Y1 - 2025/4/1

N2 - Stability is the primary hindrance for the application of halide perovskite material in light-emitting devices, solar cells, and other devices. In this work, halide perovskite and polymer composite film have been prepared for stable and bright light-emitting devices. Pure-phase Cs4PbBr6 crystals have been synthesized, and their photoluminescence (PL) properties and fluorescence lifetimes have been investigated. The Cs4PbBr6 crystals exhibited high uniformity but underwent rapid photodegradation under light irradiation. To address this issue, we prepared bright light-emitting devices using composite of Cs4PbBr6 crystals and polyethylene oxide (PEO) as the emission layer. The aim was to improve the optical and physical properties of halide perovskites, such as photodegradation and stability. PEO, with its excellent film-forming ability, created a uniform and dense film on the halide perovskite surface, filling microscopic defects and providing a protective barrier. FTIR, morphology, and PL analyses confirmed the protective role of the halide perovskite and polymer composite film. The composite film light-emitting devices demonstrated improved stability and higher PL brightness, with a peak brightness approaching 3 × 108 cd/m2, which was approximately 75% higher than the pure halide perovskite devices.

AB - Stability is the primary hindrance for the application of halide perovskite material in light-emitting devices, solar cells, and other devices. In this work, halide perovskite and polymer composite film have been prepared for stable and bright light-emitting devices. Pure-phase Cs4PbBr6 crystals have been synthesized, and their photoluminescence (PL) properties and fluorescence lifetimes have been investigated. The Cs4PbBr6 crystals exhibited high uniformity but underwent rapid photodegradation under light irradiation. To address this issue, we prepared bright light-emitting devices using composite of Cs4PbBr6 crystals and polyethylene oxide (PEO) as the emission layer. The aim was to improve the optical and physical properties of halide perovskites, such as photodegradation and stability. PEO, with its excellent film-forming ability, created a uniform and dense film on the halide perovskite surface, filling microscopic defects and providing a protective barrier. FTIR, morphology, and PL analyses confirmed the protective role of the halide perovskite and polymer composite film. The composite film light-emitting devices demonstrated improved stability and higher PL brightness, with a peak brightness approaching 3 × 108 cd/m2, which was approximately 75% higher than the pure halide perovskite devices.

KW - Polyethylene oxide

KW - Cs4PbBr6

KW - Luminance

KW - Composite film

KW - Light-emitting device

KW - Perovskite

KW - Cs PbBr

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JO - Advanced Composites and Hybrid Materials

JF - Advanced Composites and Hybrid Materials

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M1 - 213

ER -

Halide perovskite-polymer composite film for bright and stable light-emitting devices

Abstract

Keywords

UN SDGs

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