Issue 2, 2024

Composition dependence of X-ray stability and degradation mechanisms at lead halide perovskite single crystal surfaces

Abstract

The multiple applications of lead halide perovskite materials and the extensive use of X-ray based techniques to characterize them highlight a need to understand their stability under X-ray irradiation. Here, we present a study where the X-ray stability of five different lead halide perovskite compositions (MAPbI3, MAPbCl3, MAPbBr3, FAPbBr3, CsPbBr3) was investigated using photoelectron spectroscopy. To exclude effects of thin film formation on the observed degradation behaviors, we studied clean surfaces of single crystals. Different X-ray resistance and degradation mechanisms were observed depending on the crystal composition. Overall, perovskites based on the MA+ cation were found to be less stable than those based on FA+ or Cs+. Metallic lead formed most easily in the chloride perovskite, followed by bromide, and only very little metallic lead formation was observed for MAPbI3. MAPbI3 showed one main degradation process, which was the radiolysis of MAI. Multiple simultaneous degradation processes were identified for the bromide compositions. These processes include ion migration towards the perovskite surface and the formation of volatile and solid products in addition to metallic lead. Lastly, CsBr formed as a solid degradation product on the surface of CsPbBr3.

Graphical abstract: Composition dependence of X-ray stability and degradation mechanisms at lead halide perovskite single crystal surfaces

Supplementary files

Article information

Article type
Paper
Submitted
18 Oct 2023
Accepted
04 Dec 2023
First published
13 Dec 2023
This article is Open Access
Creative Commons BY license

Phys. Chem. Chem. Phys., 2024,26, 1000-1010

Composition dependence of X-ray stability and degradation mechanisms at lead halide perovskite single crystal surfaces

A. García-Fernández, B. Kammlander, S. Riva, H. Rensmo and U. B. Cappel, Phys. Chem. Chem. Phys., 2024, 26, 1000 DOI: 10.1039/D3CP05061K

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