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Tuning the Bandgap in Silver Bismuth Iodide Materials by Partly Substituting Bismuth with Antimony for Improved Solar Cell Performance

Authors :
Zhu, Huimin
Erbing, Axel
Wu, Hua
Man, Gabriel
Mukherjee, Soham
Kamal, Chinnathambi
Johansson, Malin B
Rensmo, Håkan
Odelius, Michael
Johansson, Erik
Zhu, Huimin
Erbing, Axel
Wu, Hua
Man, Gabriel
Mukherjee, Soham
Kamal, Chinnathambi
Johansson, Malin B
Rensmo, Håkan
Odelius, Michael
Johansson, Erik
Publication Year :
2020

Abstract

Silver bismuth iodide (Ag-Bi-I) light absorbers are interesting candidates as lead-free and low-toxic metal-halide materials for solar cell applications. In this work, the partial exchange of bismuth, Bi, with antimony, Sb, is investigated in samples prepared from a solution targeting stoichiometry AgBi2I7. Samples with a gradually increased exchange of Bi by Sb are prepared and light absorption measurements show that the absorption edge is gradually blue-shifted with increasing the amount of Sb. This trend in the shift in combination with the X-ray diffraction and X-ray photoelectron spectroscopy measurements, suggest that new materials with a mixture of Sb and Bi are formed. The density functional theory based electronic structure calculations reproduce the trend observed in the experiments when including spin-orbit coupling, which indicates the importance of relativistic effects in these materials. X-ray photoelectron spectroscopy is used to characterize the materials, and confirms the exchange of Bi to Sb in the samples. When Sb is included in the material, the grain size changes between 50 and 200 nm and the solar cell performance also changes. An optimal power conversion efficiency with excellent reproducibility and stability is obtained for a solar cell with the ratio of Sb/Bi equal to 3.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1235305300
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1021.acsaem.0c00712