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Main Authors: Shiddique, Sheikh Noman, Abir, Ahnaf Tahmid, Hossain, Md Jayed, Hossain, Mainul, Hossain, Jaker
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2402.03853
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author Shiddique, Sheikh Noman
Abir, Ahnaf Tahmid
Hossain, Md Jayed
Hossain, Mainul
Hossain, Jaker
author_facet Shiddique, Sheikh Noman
Abir, Ahnaf Tahmid
Hossain, Md Jayed
Hossain, Mainul
Hossain, Jaker
contents In this article, we demonstrate CdSe-CuSbSe2-based double junction two-terminal tandem solar cells simulated with SCAPS-1D. The highest performance of the tandem cell has been confirmed by optimizing the electrical and optical properties of window, top absorber, CdSe (bandgap 1.7 eV), bottom absorber, CuSbSe2 (bandgap 1.08 eV) and back surface layers. In addition, the effect of different parameters such as thickness, doping, defect density of different layers has been investigated in details. With the optimized condition, the modeled CdSe-CuSbSe2 double-junction two-terminal tandem solar cell displays the noticeable efficiency of 42.64% with open circuit voltage of 2.09 V, short circuit current density of 24.09 mA/cm2 and fill factor of 84.36%, respectively. These results are highly propitious for the construction of all-chalcogenide based high performance tandem photovoltaic cells in the future.
format Preprint
id arxiv_https___arxiv_org_abs_2402_03853
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Design and optimization of CdSe-CuSbSe2-based double-junction two-terminal tandem solar cells with VOC> 2.0 V and PCE over 42%
Shiddique, Sheikh Noman
Abir, Ahnaf Tahmid
Hossain, Md Jayed
Hossain, Mainul
Hossain, Jaker
Applied Physics
In this article, we demonstrate CdSe-CuSbSe2-based double junction two-terminal tandem solar cells simulated with SCAPS-1D. The highest performance of the tandem cell has been confirmed by optimizing the electrical and optical properties of window, top absorber, CdSe (bandgap 1.7 eV), bottom absorber, CuSbSe2 (bandgap 1.08 eV) and back surface layers. In addition, the effect of different parameters such as thickness, doping, defect density of different layers has been investigated in details. With the optimized condition, the modeled CdSe-CuSbSe2 double-junction two-terminal tandem solar cell displays the noticeable efficiency of 42.64% with open circuit voltage of 2.09 V, short circuit current density of 24.09 mA/cm2 and fill factor of 84.36%, respectively. These results are highly propitious for the construction of all-chalcogenide based high performance tandem photovoltaic cells in the future.
title Design and optimization of CdSe-CuSbSe2-based double-junction two-terminal tandem solar cells with VOC> 2.0 V and PCE over 42%
topic Applied Physics
url https://arxiv.org/abs/2402.03853