Effect of TiO2 nanopatterns on the performance of hydrogenated amorphous silicon thin-film solar cells |
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| Authors: | Joon-Ho OhJi-Hwan Yang Koeng Su LimKang-Soo Han Yang-Doo KimHeon Lee Jun-Hyuk SongKyoung-Kook Kim Tae-Yeon Seong |
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| Affiliation: | a Department of Materials Science and Engineering, Korea University, Seoul 136-713, Republic of Koreab Department of Electrical Engineering, Korea Advanced Institute of Science and Technology, Daejeon 305-701, Republic of Koreac Department of Nano-Optical Engineering, Korea Polytechnic University, Gyeonggi 429-793, Republic of Korea |
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| Abstract: | We investigate how TiO2 nanopatterns formed onto ZnO:Al (AZO) films affect the performance of hydrogenated amorphous silicon (a-Si:H) solar cells. Scanning electron microscopy results show that the dome-shaped TiO2 nanopatterns (300 nm in diameter) having a period of 500 nm are formed onto AZO films and vary from 60 to 180 nm in height. Haze factor increases with an increase in the height of the nanopatterns in the wavelength region below 530 nm. Short circuit current density also increases with an increase in the height of the nanopatterns. As the nanopatterns increases in height, the fill factor of the cells slightly increases, reaches maximum (0.64) at 100 nm, and then decreases. Measurements show that a-Si:H solar cells fabricated with 100 nm-high TiO2 nanopatterns exhibit the highest conversion efficiency (6.34%) among the solar cells with the nanopatterns and flat AZO sample. |
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| Keywords: | Titanium dioxide Nanopatterns Zinc oxide Amorphous silicon solar cells Anti-reflection Light scattering |
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