@article{Madani_Shayesteh_Moslemi_2023, title={Improved efficiency of a SiGe thin film solar cell structure using CNT charge collector layer}, volume={16}, url={https://oiccpress.com/journal-of-theoretical-and-applied-physics/article/improved-efficiency-of-a-sige-thin-film-solar-cell-structure-using-cnt-charge-collector-layer/}, DOI={10.30495/JTAP.162239}, abstractNote={In this study, a SiGe (Si(1-X) GeX x=0.1) thin film solar cell structure based on the carbon nanotube charge collector (CNT) is investigated. The addition of the carbon nanotube layer to cell structure has been proven to change aspects of its physical characteristics, specifically the efficiency of the solar cell. This means that CNT can have a significant impact on structure. The efficiency of suggested structure is 27.72%, which is higher than conventional structures without CNT layer. We optimize this structure by varying the cell layers thickness and calculating the ratio of the top metal contact to the total cell width. Furthermore, the performance of this cell is considering in present of two types of CNT layers with sheet resistances of 128Ω/□ and 76Ω/□. According to numerical simulation CNT layer with 128 Ω/□ sheet resistance has better performance parameters. Finally, the number of metal electrodes above the cell is optimized due to the shading effect and we show that the contact distance in the presence of CNT layer can be increased up to 1000 μm. The cell efficiency after this optimization reaches 30.9%.}, number={4}, journal={Journal of Theoretical and Applied Physics}, publisher={OICC Press}, author={Madani, Homa Hashemi and Shayesteh, Mohammad Reza and Moslemi, Mohammad Reza}, year={2023}, month={Nov.}, keywords={SiGe, Carbon nanotube (CNT), Optimization, Thin film Solar cell} }