What question did this study set out to answer?

The research aims to explore the optical and photoemission characteristics of stable triple-cation perovskite films for enhanced solar cell performance.

February 22, 2026

Characterization of Optical and Photoemission Properties of Triple Cation Perovskite Films

Key Points

The research aims to explore the optical and photoemission characteristics of stable triple-cation perovskite films for enhanced solar cell performance.
Investigated CsFAMAPb(IBr)3 thin films under UV light.
Tested six different halogen proportions while maintaining fixed cation ratios.
Measured optical and photoluminescence parameters.
Identified stable compositions exhibiting high photoluminescence.
Demonstrated that certain compositions facilitate better optical performance.
Supported the potential for these films in indoor photovoltaic applications.

Abstract

Today, perovskite thin-film electronics require specific semiconductor materials for high performance. Modern indoor perovskite solar cells can be significantly improved if the classic MAPbI3 semiconductor is replaced by triple-cation compositions with a band gap greater than 1.6 eV. However, simply changing the anion proportion in a perovskite can lead to changes in the Goldschmidt tolerance factor and initiate phase separation. In this study, one of the most stable CsFAMAPb(IBr)3 thin films was used to investigate new stable compositions under UV light. Here, we used six different proportions of halogens with a fixed ratio of cations in the thin films, which were experimentally tested to determine their optical and photoluminescence parameters and assess their potential for indoor photovoltaic applications.

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Characterization of Optical and Photoemission Properties of Triple Cation Perovskite Films

Key Points

Abstract

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