A comprehensive photovoltaic study on tungsten disulfide (WS2) buffer layer based CdTe solar cell. Issue 3 (March 2023)
- Record Type:
- Journal Article
- Title:
- A comprehensive photovoltaic study on tungsten disulfide (WS2) buffer layer based CdTe solar cell. Issue 3 (March 2023)
- Main Title:
- A comprehensive photovoltaic study on tungsten disulfide (WS2) buffer layer based CdTe solar cell
- Authors:
- Emon, E.I.
Islam, A.M.
Sobayel, M.K.
Islam, S.
Akhtaruzzaman, Md
Amin, N.
Ahmed, A.
Rashid, M.J. - Abstract:
- Abstract: Transition metal di-chalcogenides (TMCDs)-Tungsten disulfide (WS2 ) exhibit excellent optoelectronic properties such as suitable bandgap, high absorption coefficient, good conductivity, high carrier mobility, etc. to be used as a photovoltaic material for thin-film solar cells. In the present work, we have replaced the traditional buffer CdS and ITO/ZnO window layer in CdTe solar cells with the non-toxic, earth-abundant WS2 buffer and SnO2 window layer, respectively. The SCAPS-1D solar simulator is used to investigate the potentiality of WS2 as buffer material in CdTe solar cells. This numerical study provides a comparison of the performances between the proposed structure: SnO2 /WS2 /CdTe/Au and the baseline structure: ITO/ZnO/CdS/CdTe/Au. The impacts of the charge carrier generation rate, spectral response, current-voltage characteristics, bulk defect density, defect density at buffer/absorber interface, operating temperature, and capacitance-voltage characteristics on the solar cell performance parameters have also been analyzed. The tolerance level of defect density in WS2 bulk and WS2 /CdTe interface are found to be 10 17 cm −3 and 10 12 cm −3, respectively. The temperature study reveals the poor structural robustness and thermal stability of the proposed cell. The conversion efficiency of the proposed cell has found to be 20.55% at the optimized device structure. Nevertheles, these findings may provide an insight to fabricate viable, environment friendly,Abstract: Transition metal di-chalcogenides (TMCDs)-Tungsten disulfide (WS2 ) exhibit excellent optoelectronic properties such as suitable bandgap, high absorption coefficient, good conductivity, high carrier mobility, etc. to be used as a photovoltaic material for thin-film solar cells. In the present work, we have replaced the traditional buffer CdS and ITO/ZnO window layer in CdTe solar cells with the non-toxic, earth-abundant WS2 buffer and SnO2 window layer, respectively. The SCAPS-1D solar simulator is used to investigate the potentiality of WS2 as buffer material in CdTe solar cells. This numerical study provides a comparison of the performances between the proposed structure: SnO2 /WS2 /CdTe/Au and the baseline structure: ITO/ZnO/CdS/CdTe/Au. The impacts of the charge carrier generation rate, spectral response, current-voltage characteristics, bulk defect density, defect density at buffer/absorber interface, operating temperature, and capacitance-voltage characteristics on the solar cell performance parameters have also been analyzed. The tolerance level of defect density in WS2 bulk and WS2 /CdTe interface are found to be 10 17 cm −3 and 10 12 cm −3, respectively. The temperature study reveals the poor structural robustness and thermal stability of the proposed cell. The conversion efficiency of the proposed cell has found to be 20.55% at the optimized device structure. Nevertheles, these findings may provide an insight to fabricate viable, environment friendly, and inexpensive CdTe thin-film solar cells. … (more)
- Is Part Of:
- Heliyon. Volume 9:Issue 3(2023)
- Journal:
- Heliyon
- Issue:
- Volume 9:Issue 3(2023)
- Issue Display:
- Volume 9, Issue 3 (2023)
- Year:
- 2023
- Volume:
- 9
- Issue:
- 3
- Issue Sort Value:
- 2023-0009-0003-0000
- Page Start:
- Page End:
- Publication Date:
- 2023-03
- Subjects:
- Numerical study -- Transition metal di-chalcogenides (TMCDs) -- Tungsten disulfide (WS2) -- Buffer layer -- CdTe Solar cell
Research -- Periodicals
Medical sciences -- Periodicals
Natural history -- Periodicals
Social sciences -- Periodicals
Earth sciences -- Periodicals
Physical sciences -- Periodicals
507.2 - Journal URLs:
- http://www.sciencedirect.com/science/journal/24058440/ ↗
http://www.sciencedirect.com/ ↗ - DOI:
- 10.1016/j.heliyon.2023.e14438 ↗
- Languages:
- English
- ISSNs:
- 2405-8440
- Deposit Type:
- Legaldeposit
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