The photovoltaics industry is expected to slowly transition from p-type mono-Si cells to n-type mono-Si over the next several years. Diffusion of boron into silicon to fabricate a p+ emitter can result in an efficiency-reducing boron rich layer (BRL) which can be removed reliably with an NF 3 dry-etch process. The emitter should be passivated with a film that does not result in minority carriers being attracted to its surface. Boron was diffused from a-Si films deposited by PECVD on both sides of n-type Si substrates of 3.3 ohm-cm. The emitters were dry etched with nitrogen trifluoride (NF 3 ). Best results for effective lifetime (198 µs) and emitter saturation current (31.6 fA/cm 2 ) were realized on a sample etched to 89 Ω/□ from 71 Ω/□, then passivated with 10 nm of Al 2 O 3 and 70 nm of SiN X and subsequently annealed in N 2 /H 2 @ 450 °C for 60 minutes.
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