Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices

Junzhi Ye; Aobo Ren; Linjie Dai; Tomi K. Baikie; Renjun Guo; Debapriya Pal; Sebastian Gorgon; Julian E. Heger; Junyang Huang; Yuqi Sun; Rakesh Arul; Gianluca Grimaldi; Kaiwen Zhang; Javad Shamsi; Yi Teng Huang; Hao Wang; Jiang Wu; A. Femius Koenderink; Laura Torrente Murciano; Matthias Schwartzkopf; Stephen V. Roth; Peter Müller-Buschbaum; Jeremy J. Baumberg; Samuel D. Stranks; Neil C. Greenham; Lakshminarayana Polavarapu; Wei Zhang; Akshay Rao; Robert L.Z. Hoye

doi:10.1038/s41566-024-01398-y

Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices

Junzhi Ye, Aobo Ren, Linjie Dai, Tomi K. Baikie, Renjun Guo, Debapriya Pal, Sebastian Gorgon, Julian E. Heger, Junyang Huang, Yuqi Sun, Rakesh Arul, Gianluca Grimaldi, Kaiwen Zhang, Javad Shamsi, Yi Teng Huang, Hao Wang, Jiang Wu, A. Femius Koenderink, Laura Torrente Murciano, Matthias SchwartzkopfStephen V. Roth, Peter Müller-Buschbaum, Jeremy J. Baumberg, Samuel D. Stranks, Neil C. Greenham, Lakshminarayana Polavarapu, Wei Zhang, Akshay Rao, Robert L.Z. Hoye

Lehrstuhl für Funktionelle Materialien

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

29 Zitate (Scopus)

Abstract

Polarized light is critical for a wide range of applications, but is usually generated by filtering unpolarized light, which leads to substantial energy losses and requires additional optics. Here we demonstrate the direct emission of linearly polarized light from light-emitting diodes made of CsPbI₃ perovskite nanoplatelet superlattices. The use of solvents with different vapour pressures enables the self-assembly of the nanoplatelets with fine control over their orientation (either face-up or edge-up) and therefore their transition dipole moment. As a result of the highly uniform alignment of the nanoplatelets, as well as their strong quantum and dielectric confinement, large exciton fine-structure splitting is achieved at the film level, leading to pure red light-emitting diodes with linearly polarized electroluminescence exhibiting a high degree of polarization of 74.4% without any photonic structures. This work demonstrates the potential of perovskite nanoplatelets as a promising source of linearly polarized light, opening up the development of next-generation three-dimensional displays and optical communications from a highly versatile, solution-processable system.

Originalsprache	Englisch
Seiten (von - bis)	586-594
Seitenumfang	9
Fachzeitschrift	Nature Photonics
Jahrgang	18
Ausgabenummer	6
DOIs	https://doi.org/10.1038/s41566-024-01398-y
Publikationsstatus	Veröffentlicht - Juni 2024

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Ye, J., Ren, A., Dai, L., Baikie, T. K., Guo, R., Pal, D., Gorgon, S., Heger, J. E., Huang, J., Sun, Y., Arul, R., Grimaldi, G., Zhang, K., Shamsi, J., Huang, Y. T., Wang, H., Wu, J., Koenderink, A. F., Torrente Murciano, L., ... Hoye, R. L. Z. (2024). Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices. Nature Photonics, 18(6), 586-594. https://doi.org/10.1038/s41566-024-01398-y

@article{21a0cf46494c44e4979e6c552a4a7df5,

title = "Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices",

abstract = "Polarized light is critical for a wide range of applications, but is usually generated by filtering unpolarized light, which leads to substantial energy losses and requires additional optics. Here we demonstrate the direct emission of linearly polarized light from light-emitting diodes made of CsPbI3 perovskite nanoplatelet superlattices. The use of solvents with different vapour pressures enables the self-assembly of the nanoplatelets with fine control over their orientation (either face-up or edge-up) and therefore their transition dipole moment. As a result of the highly uniform alignment of the nanoplatelets, as well as their strong quantum and dielectric confinement, large exciton fine-structure splitting is achieved at the film level, leading to pure red light-emitting diodes with linearly polarized electroluminescence exhibiting a high degree of polarization of 74.4% without any photonic structures. This work demonstrates the potential of perovskite nanoplatelets as a promising source of linearly polarized light, opening up the development of next-generation three-dimensional displays and optical communications from a highly versatile, solution-processable system.",

author = "Junzhi Ye and Aobo Ren and Linjie Dai and Baikie, {Tomi K.} and Renjun Guo and Debapriya Pal and Sebastian Gorgon and Heger, {Julian E.} and Junyang Huang and Yuqi Sun and Rakesh Arul and Gianluca Grimaldi and Kaiwen Zhang and Javad Shamsi and Huang, {Yi Teng} and Hao Wang and Jiang Wu and Koenderink, {A. Femius} and {Torrente Murciano}, Laura and Matthias Schwartzkopf and Roth, {Stephen V.} and Peter M{\"u}ller-Buschbaum and Baumberg, {Jeremy J.} and Stranks, {Samuel D.} and Greenham, {Neil C.} and Lakshminarayana Polavarapu and Wei Zhang and Akshay Rao and Hoye, {Robert L.Z.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = jun,

doi = "10.1038/s41566-024-01398-y",

language = "English",

volume = "18",

pages = "586--594",

journal = "Nature Photonics",

issn = "1749-4885",

publisher = "Nature Publishing Group",

number = "6",

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Ye, J, Ren, A, Dai, L, Baikie, TK, Guo, R, Pal, D, Gorgon, S, Heger, JE, Huang, J, Sun, Y, Arul, R, Grimaldi, G, Zhang, K, Shamsi, J, Huang, YT, Wang, H, Wu, J, Koenderink, AF, Torrente Murciano, L, Schwartzkopf, M, Roth, SV, Müller-Buschbaum, P, Baumberg, JJ, Stranks, SD, Greenham, NC, Polavarapu, L, Zhang, W, Rao, A & Hoye, RLZ 2024, 'Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices', Nature Photonics, Jg. 18, Nr. 6, S. 586-594. https://doi.org/10.1038/s41566-024-01398-y

TY - JOUR

T1 - Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices

AU - Ye, Junzhi

AU - Ren, Aobo

AU - Dai, Linjie

AU - Baikie, Tomi K.

AU - Guo, Renjun

AU - Pal, Debapriya

AU - Gorgon, Sebastian

AU - Heger, Julian E.

AU - Huang, Junyang

AU - Sun, Yuqi

AU - Arul, Rakesh

AU - Grimaldi, Gianluca

AU - Zhang, Kaiwen

AU - Shamsi, Javad

AU - Huang, Yi Teng

AU - Wang, Hao

AU - Wu, Jiang

AU - Koenderink, A. Femius

AU - Torrente Murciano, Laura

AU - Schwartzkopf, Matthias

AU - Roth, Stephen V.

AU - Müller-Buschbaum, Peter

AU - Baumberg, Jeremy J.

AU - Stranks, Samuel D.

AU - Greenham, Neil C.

AU - Polavarapu, Lakshminarayana

AU - Zhang, Wei

AU - Rao, Akshay

AU - Hoye, Robert L.Z.

PY - 2024/6

Y1 - 2024/6

N2 - Polarized light is critical for a wide range of applications, but is usually generated by filtering unpolarized light, which leads to substantial energy losses and requires additional optics. Here we demonstrate the direct emission of linearly polarized light from light-emitting diodes made of CsPbI3 perovskite nanoplatelet superlattices. The use of solvents with different vapour pressures enables the self-assembly of the nanoplatelets with fine control over their orientation (either face-up or edge-up) and therefore their transition dipole moment. As a result of the highly uniform alignment of the nanoplatelets, as well as their strong quantum and dielectric confinement, large exciton fine-structure splitting is achieved at the film level, leading to pure red light-emitting diodes with linearly polarized electroluminescence exhibiting a high degree of polarization of 74.4% without any photonic structures. This work demonstrates the potential of perovskite nanoplatelets as a promising source of linearly polarized light, opening up the development of next-generation three-dimensional displays and optical communications from a highly versatile, solution-processable system.

AB - Polarized light is critical for a wide range of applications, but is usually generated by filtering unpolarized light, which leads to substantial energy losses and requires additional optics. Here we demonstrate the direct emission of linearly polarized light from light-emitting diodes made of CsPbI3 perovskite nanoplatelet superlattices. The use of solvents with different vapour pressures enables the self-assembly of the nanoplatelets with fine control over their orientation (either face-up or edge-up) and therefore their transition dipole moment. As a result of the highly uniform alignment of the nanoplatelets, as well as their strong quantum and dielectric confinement, large exciton fine-structure splitting is achieved at the film level, leading to pure red light-emitting diodes with linearly polarized electroluminescence exhibiting a high degree of polarization of 74.4% without any photonic structures. This work demonstrates the potential of perovskite nanoplatelets as a promising source of linearly polarized light, opening up the development of next-generation three-dimensional displays and optical communications from a highly versatile, solution-processable system.

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U2 - 10.1038/s41566-024-01398-y

DO - 10.1038/s41566-024-01398-y

M3 - Article

AN - SCOPUS:85187263533

SN - 1749-4885

VL - 18

SP - 586

EP - 594

JO - Nature Photonics

JF - Nature Photonics

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ER -

Direct linearly polarized electroluminescence from perovskite nanoplatelet superlattices

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