International Journal of Photoenergy (Jan 2019)

H2O/O2 Vapor Annealing Effect on Spin Coating Alumina Thin Films for Passivation of Silicon Solar Cells

  • Abdullah Uzum,
  • Hiroyuki Kanda,
  • Takuma Noguchi,
  • Yuya Nakazawa,
  • Shota Taniwaki,
  • Yasushi Hotta,
  • Yuichi Haruyama,
  • Naoyuki Shibayama,
  • Seigo Ito

DOI
https://doi.org/10.1155/2019/4604932
Journal volume & issue
Vol. 2019

Abstract

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Aluminum acetylacetonate-based AlOx thin films were introduced as a low-cost, high-quality passivation layers for crystalline silicon solar cells. Films were formed by a spin coating method on p-type silicon substrates at 450°C in ambient air, O2, or water vapor (H2O/O2) for 15 or 120 min. XPS analysis confirms the AlOx formation and reveals a high intensity of interfacial SiOx at the AlOx/Si interface of processed wafers. Ambient H2O/O2 was found to be more beneficial for the activation of introduced AlOx passivation films which offers high lifetime improvements with a low thermal budget. Carrier lifetime measurements provides that symmetrically coated wafers reach 119.3 μs and 248.3 μs after annealing in ambient H2O/O2 for 15 min and 120 min, respectively.