IEEE Journal of the Electron Devices Society (Jan 2021)

Improved Perovskite Solar Cell Performance by High Growth Rate Spatial Atomic Layer Deposited Titanium Oxide Compact Layer

  • Chia-Hsun Hsu,
  • Ka-Te Chen,
  • Lu-Sheng Liang,
  • Peng Gao,
  • Sin-Liang Ou,
  • Wan-Yu Wu,
  • Pao-Hsun Huang,
  • Shui-Yang Lien

DOI
https://doi.org/10.1109/JEDS.2020.3039189
Journal volume & issue
Vol. 9
pp. 49 – 56

Abstract

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In this study, titanium dioxide (TiO2) films are prepared using spatial atomic layer deposition (sALD) as an additional compact layer of tin oxide (SnO2) electronic transport layer-based perovskite solar cells. The experimental results show that the deposition of sALD TiO2 films on the fluorine-doped tin oxide substrate improves the haze at mid-long wavelengths, compensating the optical loss caused by the absorption of the TiO2 layer in short-wavelengths. Compared to conventional cells, the insertion of the sALD TiO2 compact layer regardless the thickness shows significantly improved open-circuit voltage, indicating the enhanced hole blocking ability as evidenced by the reduced reverse saturation current. In addition, the change in TiO2 thickness is found to have impacts on short-circuit current, fill factor and hysteresis of the devices. The optimal sALD TiO2 thickness of 10 nm leads to the best cell conversion efficiency of 20.1%, approximately improved by 6% compared to that of the conventional cells. Compared to conventional ALD techniques and other methods, the sALD which does not require vacuum system has the pinhole-free, low-cost, very fast and simple processes, demonstrating the great potential of sALD films for applications in perovskite solar cells.

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