EXPLORING EFFICIENCY AND DESIGN OPTIMIZATION OF FLEXIBLE PEROVSKITE SOLAR CELLS USING SCAPS-1D SIMULATION
EXPLORING EFFICIENCY AND DESIGN OPTIMIZATION OF FLEXIBLE PEROVSKITE SOLAR CELLS USING SCAPS-1D SIMULATION
This research focuses on using SCAPS-1D software to design and simulate efficient flexible perovskite solar cells. The study aims to optimize design parameters, gain a deeper understanding of the underlying physics, and obtain valuable insights into electrical characteristics. The device architecture includes key components like PET/ITO substrate, TiO2 ETL, CH3NH3SnI3 absorber, CuSCN HTL, and Au electrode. By optimizing the absorber thickness (600 nm) and temperature (300 K), the performance and efficiency of the cell were improved. Investigation of different doping concentrations at 300 K for a fixed thickness revealed an efficiency of 26.98% at 600 nm. The highest efficiency of 31.44% was achieved with a doping concentration of 1E+21. This research showcases the potential of flexible perovskite solar cells for lightweight and versatile applications, emphasizing their significance in the field.
___
- Kumar, Mulmudi Hemant, et al. "Flexible, low-temperature, solution processed ZnO-based perovskite solid state solar cells." Chemical Communications 49.94 (2013): 11089-11091.
- Huang, Keqing, et al. "High‐performance flexible perovskite solar cells via precise control of electron transport layer." Advanced Energy Materials 9.44 (2019): 1901419.
- Xu, Zhiyuan, et al. "Functional layers of inverted flexible perovskite solar cells and effective technologies for device commercialization." Small Structures (2023): 2200338.
- Docampo, Pablo, et al. "Efficient organometal trihalide perovskite planar-heterojunction solar cells on flexible polymer substrates." Nature Communications 4.1 (2013): 2761.
- Di Giacomo, Francesco, et al. "Flexible perovskite photovoltaic modules and solar cells based on atomic layer deposited compact layers and UV‐irradiated TiO2 scaffolds on plastic substrates." Advanced Energy Materials 5.8 (2015): 1401808.
- Heo, Jin Hyuck, et al. "Highly efficient low temperature solution processable planar type CH3NH3PbI3 perovskite flexible solar cells." Journal of Materials Chemistry A 4.5 (2016): 1572-1578.
- Lee, Eunsong, et al. "All‐Solution‐Processed Silver Nanowire Window Electrode‐Based Flexible Perovskite Solar Cells Enabled with Amorphous Metal Oxide Protection." Advanced Energy Materials 8.9 (2018): 1702182.
- Liu, Chang, et al. "Hydrothermally treated SnO2 as the electron transport layer in high‐efficiency flexible perovskite solar cells with a certificated efficiency of 17.3%." Advanced Functional Materials 29.47 (2019): 1807604.
- Zhong, Meiyan, et al. "Highly efficient flexible MAPbI 3 solar cells with a fullerene derivative-modified SnO2 layer as the electron transport layer." Journal of Materials Chemistry A 7.12 (2019): 6659-6664.
- Qi, Jiabin, et al. "A kirigami-inspired island-chain design for wearable moistureproof perovskite solar cells with high stretchability and performance stability." Nanoscale 12.6 (2020): 3646-3656.
- Cheng, Haiyang, et al. "KBF4 Additive for Alleviating Microstrain, Improving Crystallinity, and Passivating Defects in Inverted Perovskite Solar Cells." Advanced Functional Materials 32.36 (2022): 2204880.
- Han, Bin, et al. "Rational Design of Ferroelectric 2D Perovskite for Improving the Efficiency of Flexible Perovskite Solar Cells Over 23%." Angewandte Chemie International Edition 62.8 (2023): e202217526.
- Marc. Burgelman, Department of Electronics and Information System, University of Gent. SCAPS-1D.
- Anwar, Farhana, et al. "Effect of different HTM layers and electrical parameters on ZnO nanorod-based lead-free perovskite solar cell for high-efficiency performance." International Journal of Photoenergy 2017 (2017).
- Hossain, M. Khalid, et al. "Effect of various electron and hole transport layers on the performance of CsPbI3-based perovskite solar cells: A numerical investigation in DFT, SCAPS-1D, and wxAMPS frameworks." ACS omega 7.47 (2022): 43210-43230.
- Hossain, M. Khalid, et al. "An extensive study on multiple ETL and HTL layers to design and simulation of high-performance lead-free CsSnCl3-based perovskite solar cells." Scientific Reports 13.1 (2023): 2521.
- Behrouznejad, Fatemeh, et al. "A study on utilizing different metals as the back contact of CH3NH3PbI 3 perovskite solar cells." Journal of Materials chemistry A 4.35 (2016): 13488-13498.
- Goje, A. A., et al. "Design and Simulation of Lead-free Flexible Perovskite Solar cell Using SCAPS-1D." IOP Conference Series: Materials Science and Engineering. Vol. 1278. No. 1. IOP Publishing, 2023.
- Slami, Abdelhadi, Mama Bouchaour, and Laarej Merad. "Numerical study of based perovskite solar cells by SCAPS-1D." Int. J. Energy Environ 3 (2019): 17-21.
- Trukhanov, V. A., V. V. Bruevich, and D. Yu Paraschuk. "Effect of doping on performance of organic solar cells." Physical Review B 84.20 (2011): 205318.