Two-terminal tandem solar cell with Sb2S3/Sb2Se3 absorber pair: achieving 14% power conversion efficiency
Embarking on a journey toward high solar efficiency, this study delves into a two-terminal
tandem solar cell (T SC) featuring Sb 2 S 3/Sb 2 Se 3 as an absorber layer. The tandem …
tandem solar cell (T SC) featuring Sb 2 S 3/Sb 2 Se 3 as an absorber layer. The tandem …
Exploring the potential of standalone and tandem solar cells with Sb2S3 and Sb2Se3 absorbers: a simulation study
Z Dahmardeh, M Saadat - Scientific Reports, 2023 - nature.com
Thin-film antimony chalcogenide binary compounds are potential candidates for efficient
and low-cost photovoltaic absorbers. This study investigates the performance of Sb2S3 and …
and low-cost photovoltaic absorbers. This study investigates the performance of Sb2S3 and …
Monolithic Two-Terminal Tandem Solar Cells Using Sb2S3 and Solution-Processed PbS Quantum Dots Achieving an Open-Circuit Potential beyond 1.1 V
Multijunction solar cells have the prospect of a greater theoretical efficiency limit than single-
junction solar cells by minimizing the transmissive and thermalization losses a single …
junction solar cells by minimizing the transmissive and thermalization losses a single …
All-inorganic Sb 2 S 3-based two-terminal tandem solar cells enable over 10.9% efficiency employing a concise interconnection layer
S Chen, X Zhao, G Shen, A Ke, B Liu, HY Hsu… - Journal of Materials …, 2024 - pubs.rsc.org
Tandem solar cells (TSCs) present a prospective avenue to surpass the theoretical
efficiency limits of single-junction solar cells (SJSCs). Antimony sulfide (Sb2S3), a 1.7 eV …
efficiency limits of single-junction solar cells (SJSCs). Antimony sulfide (Sb2S3), a 1.7 eV …
Design and analysis of Sb2S3/Si thin film tandem solar cell
Abstract Antimony sulfide (Sb 2 S 3) and thin crystalline silicon (c-Si) are considered suitable
top-and bottom-cell candidates for tandem solar cells (TSCs), owing to their natural …
top-and bottom-cell candidates for tandem solar cells (TSCs), owing to their natural …
Design and analysis of Perovskite/Sb2Se3 systems: Towards efficient 2-T HTL-free tandem solar cells
This paper investigates the potential of perovskite and Sb 2 Se 3 as front and bottom
absorber materials, respectively, for two-terminal tandem solar cells (TSCs), focusing on …
absorber materials, respectively, for two-terminal tandem solar cells (TSCs), focusing on …
Advanced simulation and design of two-terminal selenium/antimony selenosulfide tandem solar cells
Achieving high efficiency and long-term stability in tandem solar cells remains a challenging
issue, primarily due to the critical selection of appropriate material systems and the …
issue, primarily due to the critical selection of appropriate material systems and the …
All antimony chalcogenide tandem solar cell
A proof‐of‐concept tandem solar cell using Sb2S3 and Sb2Se3 as top and bottom cell
absorber materials is demonstrated. The bandgaps of Sb2S3 and Sb2Se3 are 1.74 and 1.22 …
absorber materials is demonstrated. The bandgaps of Sb2S3 and Sb2Se3 are 1.74 and 1.22 …
Heterojunction interface engineering enabling high transmittance and record efficiency in Sb2S3 semitransparent solar cell
M Ishaq, X Li, S Mehmood, YM Zhong… - Chemical Engineering …, 2024 - Elsevier
Abstract Antimony sulfide (Sb 2 S 3) is an auspicious contender for semitransparent and
tandem solar cells owing to its exceptional optoelectronic characteristics. Yet, complex bulk …
tandem solar cells owing to its exceptional optoelectronic characteristics. Yet, complex bulk …
Sb2Se3 as a bottom cell material for efficient perovskite/Sb2Se3 tandem solar cells
Z Cai, J Sun, H Cai, Y Gu, R Tang, C Zhu… - Energy Materials and …, 2024 - sciopen.com
Abstract Antimony selenide (Sb 2 Se 3) semiconducting material possesses a band gap of
1.05–1.2 eV and has been widely applied in single-junction solar cells. Based on its band …
1.05–1.2 eV and has been widely applied in single-junction solar cells. Based on its band …