Thalía Jiménez scite author profile

The compound Sb2(S1−xSex)3 has recently attracted a great deal of attention from the scientific community for solar cell applications. However, Sb2(S1−xSex)3 inorganic solar cell efficiencies are still limited to values lower than 7%, further studies contributing to a better understanding of the limiting factors behind this technology being necessary. In particular, no theoretical works on Sb2(S1−xSex)3 solar cell modeling have been previously reported. In this work, we present results on Sb2(S1−xSex)3 solar cell modeling under the radiative and non-radiative limits for the first time, where our results are compared to experimental reported data. First, the impact of different Se/(S + Se) compositional ratios and absorber thicknesses on Sb2(S1−xSex)3 solar cell parameters under the radiative limit is studied, demonstrating that an efficiency of 29% can be achieved under Se/(S + Se) compositional ratios in the range of 0.34–0.48 for Sb2(S1−xSex)3 thicknesses higher than 1.5 µm. Furthermore, the impact of different linearly graded band-gaps and a notch-shape configuration of grading are evaluated. In addition, the role of different Sb2(S1−xSex)3 minority carrier lifetime values on solar cells is estimated, demonstrating that for absorbers described by minority carrier lifetime values about 10−9 s, it would be better to fabricate Sb2(S1−xSex)3 solar cells with Se/(S + Se) compositional ratios lower than 0.4. Finally, the influence of low illumination intensity values is presented and discussed.

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A theoretical study on Sb2S3 solar cells: The path to overcome the efficiency barrier of 8%

Courel

Jiménez

Arce‐Plaza

et al. 2019

Solar Energy Materials and Solar Cells

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Impact of loss mechanisms through defects on Sb2(S1-xSex)3/CdS solar cells with p-n structure

Courel

Jiménez

Santos³

et al. 2022

Eur. Phys. J. Plus

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