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The effect of low and high temperature anneals on the hydrogen content and passivation of Si surface coated with SiO{sub 2} and SiN films

Journal Article · · Journal of the Electrochemical Society
DOI:https://doi.org/10.1149/1.1391866· OSTI ID:354422
; ; ; ; ;  [1]
  1. Georgia Inst. of Tech., Atlanta, GA (United States)
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A detailed comparison of the passivation quality and its dependence on the low and high temperature anneals is presented for various promising Si surface passivation schemes. The passivation schemes investigated in this study include: conventional furnace oxide (CFO), rapid thermal oxide (RTO), belt line oxide (BLO), plasma deposited oxide (PDO), SiN deposited by plasma enhanced chemical vapor deposition (PECVD), CFO/SiN, RTO/SiN, BLO/SiN, PDO/SiN, and RTO/PDO. Passivated low resistivity (1 {Omega} cm) p-type silicon samples were subjected to three annealing treatments: (1) 400 C in forming gas (FGA), (2) 730 C in air, and (3) 850 C in air, to simulate heat-treatments, which are typically used for contact anneal, front ohmic contacts, and back surface field formation, respectively, for screen printed silicon solar cells. It is found that the passivation quality of PDO, SiN, RTO, and CFO single layers improves significantly after the 400 C FGA and 730 C thermal cycles with RTO resulting in the lowest surface recombination velocities (S{sub eff}) of 154 and 405 cm/s, respectively. Silicon wafers coated with belt oxide (BLO and BLO/SiN) did not show any improvement in S{sub eff}, which remained at 5000 cm/s due to the inferior quality of BLO formed in compressed air. The oxide/nitride stack passivation is found to be far superior to single-layer passivation resulting in S{sub eff} of 70 cm/s for the RTO/SiN scheme after the two high temperature anneals (850 and 730 C). The hydrogen concentration measurements by Fourier transform infrared spectroscopy show a greater decrease in the hydrogen content in the annealed RTO/SiN stack compared to the as-deposited SiN single layer after the 730 and 850 C anneals. A combination of reduced hydrogen content and very low S{sub eff} in the RTO/SiN stack suggests that the release of hydrogen from SiN during the anneal further passivates the RTO/Si interface underneath.

Sponsoring Organization:
National Renewable Energy Lab., Golden, CO (United States)
OSTI ID:
354422
Journal Information:
Journal of the Electrochemical Society, Journal Name: Journal of the Electrochemical Society Journal Issue: 5 Vol. 146; ISSN 0013-4651; ISSN JESOAN
Country of Publication:
United States
Language:
English

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Related Subjects

14 SOLAR ENERGY
36 MATERIALS SCIENCE
ANNEALING
CONCENTRATION RATIO
HYDROGEN
PASSIVATION
PROTECTIVE COATINGS
SILICON
SILICON NITRIDES
SILICON OXIDES
SILICON SOLAR CELLS