Strain Heterogeneity and Extended Defects in Halide Perovskite Devices

Orr, Kieran W. P.; Diao, Jiecheng; Dey, Krishanu; Hameed, Madsar; Dubajić, Miloš; Gilbert, Hayley L.; Selby, Thomas A.; Zelewski, Szymon J.; Han, Yutong; Fitzsimmons, Melissa R.; Roose, Bart; Li, Peng; Fan, Jiadong; Jiang, Huaidong; Briscoe, Joe; Robinson, Ian K.; Stranks, Samuel D.

doi:10.1021/acsenergylett.4c00921

ACS Energy Lett.

2024

DOI: 10.1021/acsenergylett.4c00921

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Strain Heterogeneity and Extended Defects in Halide Perovskite Devices

Kieran W. P. Orr,

Jiecheng Diao,

Krishanu Dey

et al.

Abstract: Strain is an important property in halide perovskite semiconductors used for optoelectronic applications because of its ability to influence device efficiency and stability. However, descriptions of strain in these materials are generally limited to bulk averages of bare films, which miss important property-determining heterogeneities that occur on the nanoscale and at interfaces in multilayer device stacks. Here, we present three-dimensional nanoscale strain mapping using Bragg coherent diffraction imaging of… Show more

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2024

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Cited by 2 publications

References 73 publications

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CsPbBr3-based photoanode prepared by single-step Chemical vapor deposition of tunable thickness perovskite films

Sosa-Acosta,

Fernández-Izquierdo,

del Río

et al. 2024

Applied Surface Science

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CsPbBr3-based photoanode prepared by single-step Chemical vapor deposition of tunable thickness perovskite films

Sosa-Acosta,

Fernández-Izquierdo,

del Río

et al. 2024

Applied Surface Science

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Mapping Spatial Strain Distribution and Its Effects on Optoelectronic Properties in Wrinkled Perovskite Films

Xue,

Li,

Zeng

et al. 2024

J. Phys. Chem. Lett.

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Organic–inorganic halide perovskite films, fabricated by using the antisolvent method, have garnered intense attention for their application in high-efficiency and stable solar cells. These films characteristically develop periodic wrinkled microstructures. Previous research has indicated that macroscopic residual strain significantly influences the optoelectronic behaviors of these films. However, the detailed interplay between the wrinkled morphology, strain distribution, and local photophysical properties at the micro- and nanoscale has not been fully elucidated. Here, we explore the microscopic morphology–strain–property relationship within wrinkled perovskite films employing correlative micro-optical and nanoelectrical microscopy techniques. Microphotoluminescence (PL) mapping supplemented by in situ strain PL measurements identifies a heterogeneous spatial strain distribution across the microstructural hills and valleys. Additionally, light-intensity-dependent photoconductive atomic force microscopy reveals that valleys experiencing less compressive strain exhibit a lower conductivity and a higher propensity for ion migration. The findings underscore the potential of targeted strain engineering to optimize the performance and longevity of perovskite solar cells.

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Strain Heterogeneity and Extended Defects in Halide Perovskite Devices

Cited by 2 publications

References 73 publications

CsPbBr3-based photoanode prepared by single-step Chemical vapor deposition of tunable thickness perovskite films

CsPbBr3-based photoanode prepared by single-step Chemical vapor deposition of tunable thickness perovskite films

Mapping Spatial Strain Distribution and Its Effects on Optoelectronic Properties in Wrinkled Perovskite Films

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