AI Article Synopsis
- Researchers developed new solar cells with a multilayer structure using materials like Ag, C, MAPbI, CZTSe, Mo, and FTO, focusing on the electron-transport, active photovoltaic, and hole-transport layers.
- The CZTSe hole-transport layers were created via magnetic sputtering, with variations in thermal annealing temperatures (300 °C to 500 °C) and film thickness (50-300 nm), optimizing the crystalline structure and domain size of MAPbI perovskite films.
- The study achieved a photo-electronic power conversion efficiency of 14.2% at an annealing temperature of 500 °C and film thickness of 200 nm, indicating strong performance metrics including an open-c
Article Abstract
New solar cells with Ag/C/MAPbI/CuZnSnSe (CZTSe)/Mo/FTO multilayered structures on glass substrates have been prepared and investigated in this study. The electron-transport layer, active photovoltaic layer, and hole-transport layer were made of C, CHNHPbI (MAPbI) perovskite, and CZTSe, respectively. The CZTSe hole-transport layers were deposited by magnetic sputtering, with the various thermal annealing temperatures at 300 °C, 400 °C, and 500 °C, and the film thickness was also varied at 50~300 nm The active photovoltaic MAPbI films were prepared using a two-step spin-coating method on the CZTSe hole-transport layers. It has been revealed that the crystalline structure and domain size of the MAPbI perovskite films could be substantially improved. Finally, n-type C was vacuum-evaporated to be the electronic transport layer. The 50 nm C thin film, in conjunction with 100 nm Ag electrode layer, provided adequate electron current transport in the multilayered structures. The solar cell current density-voltage characteristics were evaluated and compared with the thin-film microstructures. The photo-electronic power-conversion efficiency could be improved to 14.2% when the annealing temperature was 500 °C and the film thickness was 200 nm. The thin-film solar cell characteristics of open-circuit voltage, short-circuit current density, fill factor, series-resistance, and Pmax were found to be 1.07 V, 19.69 mA/cm, 67.39%, 18.5 Ω and 1.42 mW, respectively.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8228985 | PMC |
| http://dx.doi.org/10.3390/molecules26123516 | DOI Listing |
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