B-Site Doping of Metal Halide Perovskite Nanoplatelets Influences Their Optical Properties

Aleksandr P. Litvin; Igor V. Margaryan; Wenxu Yin; Xiayou Zhang; Weitao Zheng; Andrey L. Rogach

doi:10.1002/adom.202301001

B-Site Doping of Metal Halide Perovskite Nanoplatelets Influences Their Optical Properties

Aleksandr P. Litvin^*
, Igor V. Margaryan
, Wenxu Yin
, Xiayou Zhang
, Weitao Zheng
, Andrey L. Rogach^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

29 Citations (Scopus)

139 Downloads (CityUHK Scholars)

Abstract

Metal halide perovskite nanoplatelets (NPls) have recently joined a rich family of 2D semiconductor nanomaterials. Quantum and dielectric confinement in these nanostructures endow them with useful optical properties, which include, but are not limited to, high linear and nonlinear absorption coefficients, narrow and tunable emission bands, and high photoluminescence quantum yield. These characteristics render perovskite NPls promising for applications in lighting, photodetection, nonlinear optics, and photocatalysis. Doping is a universal approach for tuning optical and electronic properties of semiconductor materials, and the B-site doping of perovskite NPls allows the further improvement and adjustment on demand of the above-mentioned optical properties and may result in the appearance of fundamentally new behavior through embedding optically active dopants. In this mini-review, the basic knowledge about perovskite NPls is shortly summarized in terms of their colloidal synthesis, and then the B-site doping of perovskite NPls is considered in terms of the existing approaches (in situ and post-synthetic doping) and its effect on the optical characteristics (doping with self-emitting ions such as Mn²⁺ and rare-earth elements; consequences for the nonlinear optical response). © 2023 Wiley-VCH GmbH.

Original language	English
Article number	2301001
Journal	Advanced Optical Materials
Volume	12
Issue number	8
Online published	21 Aug 2023
DOIs	https://doi.org/10.1002/adom.202301001
Publication status	Published - 14 Mar 2024

Funding

The authors acknowledge financial support from the National Key Research and Development Program of China (project 2022YFE0200200), the National Natural Science Foundation of China (52072141, 51972136, 52102170), the Postdoctoral Science Foundation of China (2021T140251), the Research Grant Council of Hong Kong SAR (CityU 11317322), and the Croucher Foundation of Hong Kong.

Research Keywords

doping
metal halide perovskites
nanoplatelets
nonlinear optics
photoluminescence

Publisher's Copyright Statement

COPYRIGHT TERMS OF DEPOSITED POSTPRINT FILE: This is the peer reviewed version of the following article: Litvin, A. P., Margaryan, I. V., Yin, W., & Zhang, X. et al. (2023). B-Site Doping of Metal Halide Perovskite Nanoplatelets Influences Their Optical Properties. Advanced Optical Materials, Article 2301001, advanced online publication, which has been published in final form at https://doi.org/10.1002/adom.202301001.
This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. This article may not be enhanced, enriched or otherwise transformed into a derivative work, without express permission from Wiley or by statutory rights under applicable legislation. Copyright notices must not be removed, obscured or modified. The article must be linked to Wiley’s version of record on Wiley Online Library and any embedding, framing or otherwise making available the article or pages thereof by third parties from platforms, services and websites other than Wiley Online Library must be prohibited.

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abstract = "Metal halide perovskite nanoplatelets (NPls) have recently joined a rich family of 2D semiconductor nanomaterials. Quantum and dielectric confinement in these nanostructures endow them with useful optical properties, which include, but are not limited to, high linear and nonlinear absorption coefficients, narrow and tunable emission bands, and high photoluminescence quantum yield. These characteristics render perovskite NPls promising for applications in lighting, photodetection, nonlinear optics, and photocatalysis. Doping is a universal approach for tuning optical and electronic properties of semiconductor materials, and the B-site doping of perovskite NPls allows the further improvement and adjustment on demand of the above-mentioned optical properties and may result in the appearance of fundamentally new behavior through embedding optically active dopants. In this mini-review, the basic knowledge about perovskite NPls is shortly summarized in terms of their colloidal synthesis, and then the B-site doping of perovskite NPls is considered in terms of the existing approaches (in situ and post-synthetic doping) and its effect on the optical characteristics (doping with self-emitting ions such as Mn2+ and rare-earth elements; consequences for the nonlinear optical response). {\textcopyright} 2023 Wiley-VCH GmbH.",

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AU - Litvin, Aleksandr P.

AU - Margaryan, Igor V.

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AU - Zhang, Xiayou

AU - Zheng, Weitao

AU - Rogach, Andrey L.

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N2 - Metal halide perovskite nanoplatelets (NPls) have recently joined a rich family of 2D semiconductor nanomaterials. Quantum and dielectric confinement in these nanostructures endow them with useful optical properties, which include, but are not limited to, high linear and nonlinear absorption coefficients, narrow and tunable emission bands, and high photoluminescence quantum yield. These characteristics render perovskite NPls promising for applications in lighting, photodetection, nonlinear optics, and photocatalysis. Doping is a universal approach for tuning optical and electronic properties of semiconductor materials, and the B-site doping of perovskite NPls allows the further improvement and adjustment on demand of the above-mentioned optical properties and may result in the appearance of fundamentally new behavior through embedding optically active dopants. In this mini-review, the basic knowledge about perovskite NPls is shortly summarized in terms of their colloidal synthesis, and then the B-site doping of perovskite NPls is considered in terms of the existing approaches (in situ and post-synthetic doping) and its effect on the optical characteristics (doping with self-emitting ions such as Mn2+ and rare-earth elements; consequences for the nonlinear optical response). © 2023 Wiley-VCH GmbH.

AB - Metal halide perovskite nanoplatelets (NPls) have recently joined a rich family of 2D semiconductor nanomaterials. Quantum and dielectric confinement in these nanostructures endow them with useful optical properties, which include, but are not limited to, high linear and nonlinear absorption coefficients, narrow and tunable emission bands, and high photoluminescence quantum yield. These characteristics render perovskite NPls promising for applications in lighting, photodetection, nonlinear optics, and photocatalysis. Doping is a universal approach for tuning optical and electronic properties of semiconductor materials, and the B-site doping of perovskite NPls allows the further improvement and adjustment on demand of the above-mentioned optical properties and may result in the appearance of fundamentally new behavior through embedding optically active dopants. In this mini-review, the basic knowledge about perovskite NPls is shortly summarized in terms of their colloidal synthesis, and then the B-site doping of perovskite NPls is considered in terms of the existing approaches (in situ and post-synthetic doping) and its effect on the optical characteristics (doping with self-emitting ions such as Mn2+ and rare-earth elements; consequences for the nonlinear optical response). © 2023 Wiley-VCH GmbH.

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ER -

B-Site Doping of Metal Halide Perovskite Nanoplatelets Influences Their Optical Properties

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GRF: Lasing from Chiral Microstructures Self-Assembled from Perovskite Quantum Dots

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B-Site Doping of Metal Halide Perovskite Nanoplatelets Influences Their Optical Properties

Abstract

Funding

Research Keywords

Publisher's Copyright Statement

RGC Funding Information

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GRF: Lasing from Chiral Microstructures Self-Assembled from Perovskite Quantum Dots

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