Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D
The effect of the absorption layer (MASnI3) within the range (200nm-900nm) was studied with the thickness of each layer HTM and ETM (10nm) for each. After completion of the study we found that the best thickness of the absorption plate is at (400nm), note that the cells used in the program is not p...
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| Language: | English |
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Tikrit University
2019-12-01
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| Series: | Tikrit Journal of Pure Science |
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| Online Access: | https://tjpsj.org/index.php/tjps/article/view/463 |
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| author | Tariq A. Mohammed Ayed N. Saleh |
| author_facet | Tariq A. Mohammed Ayed N. Saleh |
| author_sort | Tariq A. Mohammed |
| collection | DOAJ |
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The effect of the absorption layer (MASnI3) within the range (200nm-900nm) was studied with the thickness of each layer HTM and ETM (10nm) for each. After completion of the study we found that the best thickness of the absorption plate is at (400nm), note that the cells used in the program is not perfect it contain defects, to be closer to the practical reality, after completing this study In the framework of this study was added a filter mirrors (95% mirro) from the library of the program (Scaps) and that the studied solar cells (n-ZnSe / p-MASnI3 / p-CuSCN) Reflectivity (R) ranged between 0.11-0.99 and the best reflective range at 0.99 was (η) 20.98 filler (FF) 68.55% short circuit current (Jsc) 34.040 mA/cm2 and volt circuit (Voc) 0.894 V. The default illumination spectrum has been set to the AM1.5 global standard.
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| format | Article |
| id | doaj-art-00f2ebfcbfb8416dba3dd01b8c72c8fd |
| institution | Matheson Library |
| issn | 1813-1662 2415-1726 |
| language | English |
| publishDate | 2019-12-01 |
| publisher | Tikrit University |
| record_format | Article |
| series | Tikrit Journal of Pure Science |
| spelling | doaj-art-00f2ebfcbfb8416dba3dd01b8c72c8fd2025-07-14T01:50:39ZengTikrit UniversityTikrit Journal of Pure Science1813-16622415-17262019-12-0124710.25130/tjps.v24i7.463Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1DTariq A. MohammedAyed N. Saleh The effect of the absorption layer (MASnI3) within the range (200nm-900nm) was studied with the thickness of each layer HTM and ETM (10nm) for each. After completion of the study we found that the best thickness of the absorption plate is at (400nm), note that the cells used in the program is not perfect it contain defects, to be closer to the practical reality, after completing this study In the framework of this study was added a filter mirrors (95% mirro) from the library of the program (Scaps) and that the studied solar cells (n-ZnSe / p-MASnI3 / p-CuSCN) Reflectivity (R) ranged between 0.11-0.99 and the best reflective range at 0.99 was (η) 20.98 filler (FF) 68.55% short circuit current (Jsc) 34.040 mA/cm2 and volt circuit (Voc) 0.894 V. The default illumination spectrum has been set to the AM1.5 global standard. https://tjpsj.org/index.php/tjps/article/view/463SCAPS-1DMASnI3n-ZnSep-CuSCNSolar cellConversion efficiency ( |
| spellingShingle | Tariq A. Mohammed Ayed N. Saleh Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D Tikrit Journal of Pure Science SCAPS-1D MASnI3 n-ZnSe p-CuSCN Solar cell Conversion efficiency ( |
| title | Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D |
| title_full | Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D |
| title_fullStr | Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D |
| title_full_unstemmed | Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D |
| title_short | Study the effect of thickness and reflectivity on (n-ZnSe / p-MASnI3 / p-CuSCN) solar cell properties using SCAPS-1D |
| title_sort | study the effect of thickness and reflectivity on n znse p masni3 p cuscn solar cell properties using scaps 1d |
| topic | SCAPS-1D MASnI3 n-ZnSe p-CuSCN Solar cell Conversion efficiency ( |
| url | https://tjpsj.org/index.php/tjps/article/view/463 |
| work_keys_str_mv | AT tariqamohammed studytheeffectofthicknessandreflectivityonnznsepmasni3pcuscnsolarcellpropertiesusingscaps1d AT ayednsaleh studytheeffectofthicknessandreflectivityonnznsepmasni3pcuscnsolarcellpropertiesusingscaps1d |