Recent progress with one-dimensional metal halide perovskites: from rational synthesis to optoelectronic applications

Dawei Duan; Chuangye Ge; Md Zahidur Rahaman; Chun Ho Lin; Yumeng Shi; Haoran Lin; Hanlin Hu; Tom Wu

doi:10.1038/s41427-023-00465-0

Recent progress with one-dimensional metal halide perovskites: from rational synthesis to optoelectronic applications

Dawei Duan, Chuangye Ge, Md Zahidur Rahaman, Chun Ho Lin, Yumeng Shi, Haoran Lin, Hanlin Hu, Tom Wu

Research output: Journal article publication › Review article › Academic research › peer-review

34 Citations (Scopus)

Abstract

Metal halide perovskites can be readily synthesized, they exhibit tunable physical properties and excellent performance, and they are heavily studied optoelectronic materials. Compared to the typical three-dimensional perovskites, morphological-level one-dimensional (1D) nanostructures enable charge transport and photon propagation with low exciton binding energies and long charge-carrier diffusion lengths, while molecular-level 1D nanostructures exhibit good compositional and structural flexibilities, highly tunable bandgaps, strong quantum confinement effects, and excellent ambient stabilities. The 1D natures of these emerging halide perovskites enhance the performance of optoelectronic devices. Herein, we highlight recent progress realized in the syntheses and characterizations of both morphological- and molecular-level 1D halide perovskites with tunable structures, compositions, and properties, as well as their photovoltaic, light-emission, and photodetection applications. In addition, current challenges, future prospects, and promising research directions are discussed to provide guidance in advancing the field of 1D perovskites.

Original language	English
Article number	8
Journal	NPG Asia Materials
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41427-023-00465-0
Publication status	Published - Dec 2023

ASJC Scopus subject areas

Modelling and Simulation
General Materials Science
Condensed Matter Physics

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10.1038/s41427-023-00465-0

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title = "Recent progress with one-dimensional metal halide perovskites: from rational synthesis to optoelectronic applications",

abstract = "Metal halide perovskites can be readily synthesized, they exhibit tunable physical properties and excellent performance, and they are heavily studied optoelectronic materials. Compared to the typical three-dimensional perovskites, morphological-level one-dimensional (1D) nanostructures enable charge transport and photon propagation with low exciton binding energies and long charge-carrier diffusion lengths, while molecular-level 1D nanostructures exhibit good compositional and structural flexibilities, highly tunable bandgaps, strong quantum confinement effects, and excellent ambient stabilities. The 1D natures of these emerging halide perovskites enhance the performance of optoelectronic devices. Herein, we highlight recent progress realized in the syntheses and characterizations of both morphological- and molecular-level 1D halide perovskites with tunable structures, compositions, and properties, as well as their photovoltaic, light-emission, and photodetection applications. In addition, current challenges, future prospects, and promising research directions are discussed to provide guidance in advancing the field of 1D perovskites.",

author = "Dawei Duan and Chuangye Ge and Rahaman, {Md Zahidur} and Lin, {Chun Ho} and Yumeng Shi and Haoran Lin and Hanlin Hu and Tom Wu",

note = "Funding Information: This work is supported by the Scientific Research Startup Fund for Shenzhen High-Caliber Personnel of Shenzhen Polytechnic, Nos. 6022310038k and 6022310049k. The financial support from the National Natural Science Foundation of China (62004129; 22005202) and Shenzhen Science and Technology Innovation Commission (Project No. JCYJ20200109105003940) is gratefully acknowledged, and this work was also supported by the PostDoctoral Foundation Project of Shenzhen Polytechnic 6021330007 K. Publisher Copyright: {\textcopyright} 2023, The Author(s).",

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AU - Shi, Yumeng

AU - Lin, Haoran

AU - Hu, Hanlin

AU - Wu, Tom

N1 - Funding Information: This work is supported by the Scientific Research Startup Fund for Shenzhen High-Caliber Personnel of Shenzhen Polytechnic, Nos. 6022310038k and 6022310049k. The financial support from the National Natural Science Foundation of China (62004129; 22005202) and Shenzhen Science and Technology Innovation Commission (Project No. JCYJ20200109105003940) is gratefully acknowledged, and this work was also supported by the PostDoctoral Foundation Project of Shenzhen Polytechnic 6021330007 K. Publisher Copyright: © 2023, The Author(s).

PY - 2023/12

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N2 - Metal halide perovskites can be readily synthesized, they exhibit tunable physical properties and excellent performance, and they are heavily studied optoelectronic materials. Compared to the typical three-dimensional perovskites, morphological-level one-dimensional (1D) nanostructures enable charge transport and photon propagation with low exciton binding energies and long charge-carrier diffusion lengths, while molecular-level 1D nanostructures exhibit good compositional and structural flexibilities, highly tunable bandgaps, strong quantum confinement effects, and excellent ambient stabilities. The 1D natures of these emerging halide perovskites enhance the performance of optoelectronic devices. Herein, we highlight recent progress realized in the syntheses and characterizations of both morphological- and molecular-level 1D halide perovskites with tunable structures, compositions, and properties, as well as their photovoltaic, light-emission, and photodetection applications. In addition, current challenges, future prospects, and promising research directions are discussed to provide guidance in advancing the field of 1D perovskites.

AB - Metal halide perovskites can be readily synthesized, they exhibit tunable physical properties and excellent performance, and they are heavily studied optoelectronic materials. Compared to the typical three-dimensional perovskites, morphological-level one-dimensional (1D) nanostructures enable charge transport and photon propagation with low exciton binding energies and long charge-carrier diffusion lengths, while molecular-level 1D nanostructures exhibit good compositional and structural flexibilities, highly tunable bandgaps, strong quantum confinement effects, and excellent ambient stabilities. The 1D natures of these emerging halide perovskites enhance the performance of optoelectronic devices. Herein, we highlight recent progress realized in the syntheses and characterizations of both morphological- and molecular-level 1D halide perovskites with tunable structures, compositions, and properties, as well as their photovoltaic, light-emission, and photodetection applications. In addition, current challenges, future prospects, and promising research directions are discussed to provide guidance in advancing the field of 1D perovskites.

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Recent progress with one-dimensional metal halide perovskites: from rational synthesis to optoelectronic applications

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