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Hauptverfasser: Chen, Ruitian, Pang, Jincong, Lang, Lizhong, Wu, Jiaze, Xie, Mingyu, Yang, Shuo, Qiu, Kaiqi, Filleter, Tobin, Huang, Kai, Niu, Guangda, Tang, Jiang, Zou, Yu
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2604.11848
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author Chen, Ruitian
Pang, Jincong
Lang, Lizhong
Wu, Jiaze
Xie, Mingyu
Yang, Shuo
Qiu, Kaiqi
Filleter, Tobin
Huang, Kai
Niu, Guangda
Tang, Jiang
Zou, Yu
author_facet Chen, Ruitian
Pang, Jincong
Lang, Lizhong
Wu, Jiaze
Xie, Mingyu
Yang, Shuo
Qiu, Kaiqi
Filleter, Tobin
Huang, Kai
Niu, Guangda
Tang, Jiang
Zou, Yu
contents Halide perovskites are promising optoelectronic materials, but their time-dependent permanent deformation under illumination (i.e., photo-creep) is poorly understood, limiting their mechanical stability. Here we report wavelength-dependent photo-creep phenomena in CsPbBr3 and FAPbBr3 single crystals, studied by constant-load nanoindentation under controlled light with various wavelengths. Compared with creep in dark, continuous green light (near-bandgap) suppresses creep by 19% in CsPbBr3 and 10% in FAPbBr3, whereas violet (far above-bandgap) light enhances creep by 16% in CsPbBr3 and 8% in FAPbBr3. In contrast, when light is onset during creep, blue light enhances creep most prominently, whereas green light exhibits minimal influence. Such photo-creep behavior in halide perovskites are distinct with photo-plasticity phenomenon in conventional semiconductors. By combining the photoluminescence and photocurrent measurements, we unveil that ion migration promotes dislocation climb and creep, while carrier trapping suppresses dislocation glide and related creep in halide perovskites. Such competition between carrier trapping and ion migration tuned by wavelength governs the photo-creep response. Our findings uncover a photomechanical effect in halide perovskites and highlight how coupled carrier and ion dynamics under illumination affect their device reliability.
format Preprint
id arxiv_https___arxiv_org_abs_2604_11848
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Wavelength-dependent photo-creep in halide perovskite single crystals
Chen, Ruitian
Pang, Jincong
Lang, Lizhong
Wu, Jiaze
Xie, Mingyu
Yang, Shuo
Qiu, Kaiqi
Filleter, Tobin
Huang, Kai
Niu, Guangda
Tang, Jiang
Zou, Yu
Materials Science
Halide perovskites are promising optoelectronic materials, but their time-dependent permanent deformation under illumination (i.e., photo-creep) is poorly understood, limiting their mechanical stability. Here we report wavelength-dependent photo-creep phenomena in CsPbBr3 and FAPbBr3 single crystals, studied by constant-load nanoindentation under controlled light with various wavelengths. Compared with creep in dark, continuous green light (near-bandgap) suppresses creep by 19% in CsPbBr3 and 10% in FAPbBr3, whereas violet (far above-bandgap) light enhances creep by 16% in CsPbBr3 and 8% in FAPbBr3. In contrast, when light is onset during creep, blue light enhances creep most prominently, whereas green light exhibits minimal influence. Such photo-creep behavior in halide perovskites are distinct with photo-plasticity phenomenon in conventional semiconductors. By combining the photoluminescence and photocurrent measurements, we unveil that ion migration promotes dislocation climb and creep, while carrier trapping suppresses dislocation glide and related creep in halide perovskites. Such competition between carrier trapping and ion migration tuned by wavelength governs the photo-creep response. Our findings uncover a photomechanical effect in halide perovskites and highlight how coupled carrier and ion dynamics under illumination affect their device reliability.
title Wavelength-dependent photo-creep in halide perovskite single crystals
topic Materials Science
url https://arxiv.org/abs/2604.11848