Template-Type: ReDIF-Article 1.0
Author-Name:Amna  Khan,  Muhammad  Nasir,  Muhammad  Yasir  Jamal,  Muhammad  Shahid,  Muhammad Danish Nisar, Aashir Waleed
Author-Email:aashir.walid@uet.edu.pk
Author-Workplace-Name:Department  of  Electrical  Electronics  and  Telecommunication  Engineering,  University  of Engineering & Technology, Lahore (Faisalabad), Pakistan
Title:Investigating The Impact of Perovskite Layer Thickness Variation on The Performance of Perovskite Solar Cells
Abstract:The present risk of the depletion of the non-renewable sources of energy at an alarming rate has encouraged man to look for new ways to produce power and move towards "Renewable Energy Resources". One major source of energy is the heat and intensity from the Sunlight using the Perovskite Solar Cells. This technology has captured extensive attention worldwide in the previous few years due to its high efficiency, fast development, lowcost,and easy manufacturing process. In this research,  the  thickness  variation  of  different  types  of  perovskite  layers  and  their  impacts  on  the functioning of the perovskite solar cells have been explored using SCAPS software. The absorption coefficient  of semiconducting material is exponentially related to the thickness, so if the absorption coefficient is high, the lesser thickness can absorb more light. But to avoid excessive resistance and to lessen the production cost, the thickness should be in the range of the depletion region width. Much smaller  thickness  yields  weak  static  electric  fields  in  the  depletion  region.  The  designs  of  different perovskite solar cell structures will be simulated and their effects will be critically analyzed in order to have a detailed study.
Keywords:Solar Cells,Perovskite, Energy, Irradiation, SCAPS
Journal:International Journal of Innovations in Science and Technology
Pages:1120-1131
Volume:7
Issue:2
Year:2025
Month:June
File-URL:https://journal.50sea.com/index.php/IJIST/article/view/1397/1941
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File-URL:https://journal.50sea.com/index.php/IJIST/article/view/1397
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Handle: RePEc:abq:IJIST:v:7:y:2025:i:2:p:1120-1131