Title :
Passivation of Boron-Doped Industrial Silicon Emitters by Thermal Atomic Layer Deposited Titanium Oxide
Author :
Baochen Liao ; Hoex, Bram ; Shetty, Kishan D. ; Basu, Prabir Kanti ; Bhatia, Charanjit Singh
Author_Institution :
Spin & Energy Lab., Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
Passivation of p+ -doped silicon is demonstrated by using water (H2O)-based thermal atomic layer-deposited titanium oxide (TiOx) films. Emitter saturation current density (J0 e) values below 30 fA/cm2 are obtained on textured p+ -doped samples with a sheet resistance in the 80-120 Ω/sq range. This low emitter saturation current density would allow open-circuit voltages up to 720 mV when this TiOx film is used in n-type silicon wafer solar cells with a front boron emitter. In addition, the optical properties of TiOx make it an excellent option for use as antireflection coating on the silicon wafer solar cell after encapsulation. Thus, the results demonstrated in this paper could enable interesting new routes for future high-efficiency n-type silicon wafer solar cells.
Keywords :
atomic layer deposition; boron; current density; elemental semiconductors; passivation; semiconductor thin films; silicon; solar cells; surface resistance; titanium compounds; Si:B; TiOx-Si:B; antireflection coating; boron-doped industrial silicon emitters; emitter saturation current density; encapsulation; front boron emitter; high-efficiency n-type silicon wafer solar cells; open-circuit voltages; optical properties; p+ -doped silicon; passivation; sheet resistance; textured p+ -doped samples; water-based thermal atomic layer-deposited titanium oxide films; Boron; Passivation; Photovoltaic cells; Photovoltaic systems; Silicon; Antireflection coating; atomic layer deposition; boron emitter; surface passivation; titanium oxide;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2015.2434596
