MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells
In this review article, we explore the insertion possibility of molybdenum disulfide (MoS2) thin-film heterostructures into copper, zinc, and tin sulfide (CZTS) based thin film solar cells for improved performance. CZTS has gained prominence as a naturally occurring, non-toxic alternative to convent...
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my.uniten.dspace-362552025-03-03T15:41:42Z MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells Islam M.S. Doroody C. Kiong T.S. Rahman K.S. Zuhdi A.W.M. Yap B.K. Alam M.N.-E. Amin N. 57714001600 56905467200 57216824752 56348138800 56589966300 26649255900 57189273443 7102424614 IV-VI semiconductors Layered semiconductors Molybdenum disulfide Solar cells Solar energy Tin compounds Toxic materials Back contact Back surface filed Backsurface field Copper sulphides Energy Hetero-interfaces Naturally occurring Performance Thin-films Tin sulfide Thin films In this review article, we explore the insertion possibility of molybdenum disulfide (MoS2) thin-film heterostructures into copper, zinc, and tin sulfide (CZTS) based thin film solar cells for improved performance. CZTS has gained prominence as a naturally occurring, non-toxic alternative to conventional solar energy system materials, necessitating a focus on the study of integrating MoS2 (as a back contact) with thin-film solar cells with CZTS integration, as well as understanding the impact on device efficiency and stability to advance, upscale, and commercialize products. By analyzing the MoS2-CZTS interface, critical insights into MoS2's functioning in optimizing charge carrier dynamics, lowering recombination losses, and enhancing overall device performance have been framed in this work. Furthermore, the necessity of optimizing process parameters and characterizing MoS2 back contacts in the context of CZTS-based solar cells is discussed. This thorough study intends to highlight the revolutionary potentials of MoS2 back contact structures, pave the way for future developments in optoelectronics, and contribute to the continued-evolution of sustainable energy technology. This article will be a valued resource for understanding and coupling the synergies between MoS2 back surface field (BSF) and CZTS in thin film solar cell applications for future advancement. ? 2024 Elsevier Ltd Final 2025-03-03T07:41:42Z 2025-03-03T07:41:42Z 2024 Review 10.1016/j.mssp.2024.108721 2-s2.0-85199417087 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85199417087&doi=10.1016%2fj.mssp.2024.108721&partnerID=40&md5=b1ba13ead7aeaae67622ca0c532a516d https://irepository.uniten.edu.my/handle/123456789/36255 182 108721 Elsevier Ltd Scopus |
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IV-VI semiconductors Layered semiconductors Molybdenum disulfide Solar cells Solar energy Tin compounds Toxic materials Back contact Back surface filed Backsurface field Copper sulphides Energy Hetero-interfaces Naturally occurring Performance Thin-films Tin sulfide Thin films |
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IV-VI semiconductors Layered semiconductors Molybdenum disulfide Solar cells Solar energy Tin compounds Toxic materials Back contact Back surface filed Backsurface field Copper sulphides Energy Hetero-interfaces Naturally occurring Performance Thin-films Tin sulfide Thin films Islam M.S. Doroody C. Kiong T.S. Rahman K.S. Zuhdi A.W.M. Yap B.K. Alam M.N.-E. Amin N. MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells |
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In this review article, we explore the insertion possibility of molybdenum disulfide (MoS2) thin-film heterostructures into copper, zinc, and tin sulfide (CZTS) based thin film solar cells for improved performance. CZTS has gained prominence as a naturally occurring, non-toxic alternative to conventional solar energy system materials, necessitating a focus on the study of integrating MoS2 (as a back contact) with thin-film solar cells with CZTS integration, as well as understanding the impact on device efficiency and stability to advance, upscale, and commercialize products. By analyzing the MoS2-CZTS interface, critical insights into MoS2's functioning in optimizing charge carrier dynamics, lowering recombination losses, and enhancing overall device performance have been framed in this work. Furthermore, the necessity of optimizing process parameters and characterizing MoS2 back contacts in the context of CZTS-based solar cells is discussed. This thorough study intends to highlight the revolutionary potentials of MoS2 back contact structures, pave the way for future developments in optoelectronics, and contribute to the continued-evolution of sustainable energy technology. This article will be a valued resource for understanding and coupling the synergies between MoS2 back surface field (BSF) and CZTS in thin film solar cell applications for future advancement. ? 2024 Elsevier Ltd |
| author2 |
57714001600 |
| author_facet |
57714001600 Islam M.S. Doroody C. Kiong T.S. Rahman K.S. Zuhdi A.W.M. Yap B.K. Alam M.N.-E. Amin N. |
| format |
Review |
| author |
Islam M.S. Doroody C. Kiong T.S. Rahman K.S. Zuhdi A.W.M. Yap B.K. Alam M.N.-E. Amin N. |
| author_sort |
Islam M.S. |
| title |
MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells |
| title_short |
MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells |
| title_full |
MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells |
| title_fullStr |
MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells |
| title_full_unstemmed |
MoS2 thin film hetero-interface as effective back surface field in CZTS-based solar cells |
| title_sort |
mos2 thin film hetero-interface as effective back surface field in czts-based solar cells |
| publisher |
Elsevier Ltd |
| publishDate |
2025 |
| _version_ |
1825816220213968896 |
| score |
13.244413 |