Perovskite solar cells have attracted a lot of attention due to their good optical and electrical performance as well as their simple manufacturing process. Photonic crystals have a wide range of applications in solar cells due to their increased light absorption and photonic bandgap. In this study, a perovskite solar cell based on a three-dimensional photonic crystal nanostructured rutile titanium dioxide is designed, which has a better performance compared to many of the solar cell structures proposed so far. By placing a three-dimensional photonic crystal nanostructured rutile titanium dioxide in the active layer of the perovskite solar cell and selecting the proper radius and lattice constant, the absorption rate is increased and a short-circuit current of 27.12 mA/cm2 was obtained.
Fatehi, N., Olyaee, S., Mahmoud, S., & Parandin, F. (2024). Improvement of optical characteristics of perovskite solar cell using rutile titanium dioxide three-dimensional photonic crystal structure. Applied Electromagnetics, 12(1), -.
MLA
Naarin Fatehi; Saeed Olyaee; Seifouri Mahmoud; Fariborz Parandin. "Improvement of optical characteristics of perovskite solar cell using rutile titanium dioxide three-dimensional photonic crystal structure". Applied Electromagnetics, 12, 1, 2024, -.
HARVARD
Fatehi, N., Olyaee, S., Mahmoud, S., Parandin, F. (2024). 'Improvement of optical characteristics of perovskite solar cell using rutile titanium dioxide three-dimensional photonic crystal structure', Applied Electromagnetics, 12(1), pp. -.
VANCOUVER
Fatehi, N., Olyaee, S., Mahmoud, S., Parandin, F. Improvement of optical characteristics of perovskite solar cell using rutile titanium dioxide three-dimensional photonic crystal structure. Applied Electromagnetics, 2024; 12(1): -.
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