Autor: |
Pratap, Janendra, Mishra, G. R., Singh, Sachin, Chaudhary, Vinod Kumar, Srivastava, Vaibhava |
Zdroj: |
Transactions on Electrical and Electronic Materials; December 2024, Vol. 25 Issue: 6 p760-768, 9p |
Abstrakt: |
Currently perovskite nanomaterial is the most trending material used for solar cells. In the present work, performance optimization in methylammonium tin triiodide absorber layer based solar cell integrating with carbazole phenyl and graphene oxide as hole transport layer and electron transport layer, respectively. The influence of device parameters such as temperature, total defect density, thickness, and bandgap of absorber layer is playing a vital role in photovoltaic response. An optimized device structure FTO/GO/CH3NH3SnI3/Cz-P/Pd has been proposed here with an open circuit voltage of 1.035 V, a short circuit current density 35.355 mA/cm2, fill factor 82.36% with power conversion efficiency of 30.15%. These theoretical have been calculated through SCAPS-1D software. The findings will facilitate the development of affordable, highly efficient perovskite solar cells. The above results will also open a new pathway for researchers to design and develop such types of solar cells. |
Databáze: |
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