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Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment

The thermal treatment of the CdTe thin film in the presence of CdCl2 is a crucial step in the creation of high-efficiency CdTe-based solar cells. The process influences the grain growth, grain boundary passivation, and doping, including CdTe recrystallization, and promotes to building of the photovo...

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Main Authors: Islam M.A., Nur-E-Alam M., Hatta S.F.W.M., Mohafez H., Misran H., Wahab Y.A., Chowdhury Z.Z., Soin N.B.
Other Authors: 57220973693
Format: Article
Published: Springer 2025
Subjects:
Cadmium chloride
Cadmium telluride
Carrier concentration
Cost effectiveness
Crystallinity
Energy gap
Glass substrates
Grain boundaries
Grain growth
Grain size and shape
Heat treatment
II-VI semiconductors
Magnesium compounds
Magnetron sputtering
Morphology
Refractive index
Semiconductor doping
Surface morphology
Thin films
Eco-friendly
Films properties
Grain-boundaries
High mobility
Higher efficiency
Non-toxic
Raman studies
Recrystallisation
Thin-films
Ultra thin CdTe
Chlorine compounds
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spelling my.uniten.dspace-362732025-03-03T15:41:46Z Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment Islam M.A. Nur-E-Alam M. Hatta S.F.W.M. Mohafez H. Misran H. Wahab Y.A. Chowdhury Z.Z. Soin N.B. 57220973693 57197752581 22634464300 57189693027 6506899840 57203353903 36975026400 13008659000 Cadmium chloride Cadmium telluride Carrier concentration Cost effectiveness Crystallinity Energy gap Glass substrates Grain boundaries Grain growth Grain size and shape Heat treatment II-VI semiconductors Magnesium compounds Magnetron sputtering Morphology Refractive index Semiconductor doping Surface morphology Thin films Eco-friendly Films properties Grain-boundaries High mobility Higher efficiency Non-toxic Raman studies Recrystallisation Thin-films Ultra thin CdTe Chlorine compounds The thermal treatment of the CdTe thin film in the presence of CdCl2 is a crucial step in the creation of high-efficiency CdTe-based solar cells. The process influences the grain growth, grain boundary passivation, and doping, including CdTe recrystallization, and promotes to building of the photovoltaic junction. However, toxic Cd2+ ions released by the CdCl2, which is highly soluble in water is a major environmental concern of this process. Also, the price of CdCl2 (about 30 cents/gram) that drives up manufacturing costs is another limitation of the current processs. Finding a non-toxic Cl molecule is therefore currently in high demand and key factor for the thermal treatment of CdTe. In this study, MgCl2 was thoroughly explored as an alternative, non-toxic, and somewhat less expensive chlorine-containing chemical for CdTe thermal treatment. CdTe thin films, approximately 1.0��m thick, were deposited on a glass substrate at 350 �C using RF magnetron sputtering, and after deposition, different concentrations of MgCl2 (0.2�M, 0.3�M, 0.4�M, and 0.5�M) mixed with 10% methanol were applied to the films for around 10�s, forming a thin MgCl2 coating, followed by the optimized heat treatment at 400��C in a nitrogen?oxygen environment. We found that the thermal treatment of CdTe films using MgCl2 showed improved crystallinity, surface morphology, impurity profiles, and carrier density similar to the conventional CdCl2 process. The sample treated with 0.4�M MgCl2 exhibited the best output as obtained the band gap of nearly 1.46�eV, a refractive index of 2.84, a carrier concentration of 9.81E+15�cm?3, and mobility 35.08�cm2/V-S with a moderate resistivity. Our findings show that MgCl2 could be utilized instead of traditional CdCl2 in the current fabrication procedure, which substantially lowers the environmental hazard with a cost-effective production process of CdTe-assembled solar cells. ? The Author(s) 2024. Final 2025-03-03T07:41:46Z 2025-03-03T07:41:46Z 2024 Article 10.1007/s12596-023-01621-z 2-s2.0-85185960987 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85185960987&doi=10.1007%2fs12596-023-01621-z&partnerID=40&md5=00d2adbf9514fdbafb206e134cd584e2 https://irepository.uniten.edu.my/handle/123456789/36273 53 5 4690 4697 All Open Access; Hybrid Gold Open Access Springer Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Cadmium chloride
Cadmium telluride
Carrier concentration
Cost effectiveness
Crystallinity
Energy gap
Glass substrates
Grain boundaries
Grain growth
Grain size and shape
Heat treatment
II-VI semiconductors
Magnesium compounds
Magnetron sputtering
Morphology
Refractive index
Semiconductor doping
Surface morphology
Thin films
Eco-friendly
Films properties
Grain-boundaries
High mobility
Higher efficiency
Non-toxic
Raman studies
Recrystallisation
Thin-films
Ultra thin CdTe
Chlorine compounds
spellingShingle Cadmium chloride
Cadmium telluride
Carrier concentration
Cost effectiveness
Crystallinity
Energy gap
Glass substrates
Grain boundaries
Grain growth
Grain size and shape
Heat treatment
II-VI semiconductors
Magnesium compounds
Magnetron sputtering
Morphology
Refractive index
Semiconductor doping
Surface morphology
Thin films
Eco-friendly
Films properties
Grain-boundaries
High mobility
Higher efficiency
Non-toxic
Raman studies
Recrystallisation
Thin-films
Ultra thin CdTe
Chlorine compounds
Islam M.A.
Nur-E-Alam M.
Hatta S.F.W.M.
Mohafez H.
Misran H.
Wahab Y.A.
Chowdhury Z.Z.
Soin N.B.
Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment
description The thermal treatment of the CdTe thin film in the presence of CdCl2 is a crucial step in the creation of high-efficiency CdTe-based solar cells. The process influences the grain growth, grain boundary passivation, and doping, including CdTe recrystallization, and promotes to building of the photovoltaic junction. However, toxic Cd2+ ions released by the CdCl2, which is highly soluble in water is a major environmental concern of this process. Also, the price of CdCl2 (about 30 cents/gram) that drives up manufacturing costs is another limitation of the current processs. Finding a non-toxic Cl molecule is therefore currently in high demand and key factor for the thermal treatment of CdTe. In this study, MgCl2 was thoroughly explored as an alternative, non-toxic, and somewhat less expensive chlorine-containing chemical for CdTe thermal treatment. CdTe thin films, approximately 1.0��m thick, were deposited on a glass substrate at 350 �C using RF magnetron sputtering, and after deposition, different concentrations of MgCl2 (0.2�M, 0.3�M, 0.4�M, and 0.5�M) mixed with 10% methanol were applied to the films for around 10�s, forming a thin MgCl2 coating, followed by the optimized heat treatment at 400��C in a nitrogen?oxygen environment. We found that the thermal treatment of CdTe films using MgCl2 showed improved crystallinity, surface morphology, impurity profiles, and carrier density similar to the conventional CdCl2 process. The sample treated with 0.4�M MgCl2 exhibited the best output as obtained the band gap of nearly 1.46�eV, a refractive index of 2.84, a carrier concentration of 9.81E+15�cm?3, and mobility 35.08�cm2/V-S with a moderate resistivity. Our findings show that MgCl2 could be utilized instead of traditional CdCl2 in the current fabrication procedure, which substantially lowers the environmental hazard with a cost-effective production process of CdTe-assembled solar cells. ? The Author(s) 2024.
author2 57220973693
author_facet 57220973693
Islam M.A.
Nur-E-Alam M.
Hatta S.F.W.M.
Mohafez H.
Misran H.
Wahab Y.A.
Chowdhury Z.Z.
Soin N.B.
format Article
author Islam M.A.
Nur-E-Alam M.
Hatta S.F.W.M.
Mohafez H.
Misran H.
Wahab Y.A.
Chowdhury Z.Z.
Soin N.B.
author_sort Islam M.A.
title Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment
title_short Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment
title_full Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment
title_fullStr Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment
title_full_unstemmed Ultra-thin CdTe film properties enhancement via eco-friendly MgCl2-assisted thermal treatment
title_sort ultra-thin cdte film properties enhancement via eco-friendly mgcl2-assisted thermal treatment
publisher Springer
publishDate 2025
_version_ 1825816101399822336
score 13.244413

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