Tunable Optical Properties and the Role of Defects on the Carrier Lifetimes of Cs3Sb2I9 Synthesized in Various Solvents

Pb‐free halide perovskites have recently attracted immense attention due to the number of advantages in their optical and electronic properties. However, tuning the optical bandgap with minimized amounts of point defects is a particularly challenging task in photovoltaics. It is pivotal to clearly u...

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Published in:Advanced photonics research 2023-12, Vol.4 (12), p.n/a
Main Authors: Neguse, Samuel M., Yoon, Songhak, Frebel, Alexander, Jöckel, Dennis M., Widenmeyer, Marc, Lange, Stefan, Rosspeintner, Arnulf, Ebbinghaus, Stefan G., Hagendorf, Christian, Balke, Benjamin, Weidenkaff, Anke
Format: Article
Language:English
Subjects:
Crystal structure
Cs3Sb2I9
defects
Efficiency
Morphology
Optical properties
photovoltaics
Raman spectroscopy
Scanning electron microscopy
Solvents
Spectrum analysis
time-resolved photoluminescence
Toxicity
Urbach energy
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container_issue 12
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container_title Advanced photonics research
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creator Neguse, Samuel M.
Yoon, Songhak
Frebel, Alexander
Jöckel, Dennis M.
Widenmeyer, Marc
Lange, Stefan
Rosspeintner, Arnulf
Ebbinghaus, Stefan G.
Hagendorf, Christian
Balke, Benjamin
Weidenkaff, Anke
description Pb‐free halide perovskites have recently attracted immense attention due to the number of advantages in their optical and electronic properties. However, tuning the optical bandgap with minimized amounts of point defects is a particularly challenging task in photovoltaics. It is pivotal to clearly understand the detailed relationship between the bandgap change with defect generation and charge carrier lifetime. In this study, Cs3Sb2I9 crystals are synthesized by varied choice of solvents, namely, γ‐butyrolactone, a mixture of dimethylformamide and dimethyl sulfoxide, and hydroiodic acid. Although the same principles of decreasing solubility and crystallization are applied, Cs3Sb2I9 crystals with different size and shape in microscopic and macroscopic scale are obtained during heating and cooling of the solution. The synthesized crystals are investigated using a combination of different spectroscopies including Raman, UV–visible, and time‐resolved photoluminescence. In the results, it is suggested that there is a strong relationship between Urbach energy and the lifetime of charge carriers. In this research, readily applicable practical principles and examples of how to control the defects for the advancement in Pb‐free perovskite photovoltaics are provided. Cs3Sb2I9 crystals are synthesized by varied choice of solvents, namely, γ‐butyrolactone (GBL), a mixture of dimethylformamide and dimethyl sulfoxide, and hydroiodic acid. Different colors of crystals are obtained depending on the solvent used. In the end, GBL is found to be not only more ecologically feasible compared to acidic solvent, but also more favorable within the investigated hydrothermal synthesis condition.
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source Wiley Online Library Open Access; Publicly Available Content Database
subjects Crystal structure
Cs3Sb2I9
defects
Efficiency
Morphology
Optical properties
photovoltaics
Raman spectroscopy
Scanning electron microscopy
Solvents
Spectrum analysis
time-resolved photoluminescence
Toxicity
Urbach energy
title Tunable Optical Properties and the Role of Defects on the Carrier Lifetimes of Cs3Sb2I9 Synthesized in Various Solvents
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