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Precipitated iron: a limit on gettering efficacy in multicrystalline silicon
Fenning, D.P. ; Hofstetter, J.; Bertoni, M.I.; Coletti, G.; Lai, B.; Canizo, C. del; Buonassisi, T.
Gepubliceerd door: Publicatie datum:
ECN Zonne-energie 31-1-2013
ECN publicatienummer: Publicatie type:
ECN-W--13-008 Artikel wetenschap tijdschrift
Aantal pagina's:

Gepubliceerd in: Journal of Applied Physics (American Institute of Physics), , 2013, Vol.113, p.044521-.

A phosphorus diffusion gettering model is used to examine the efficacy of a standard gettering process on interstitial and precipitated iron in multicrystalline silicon. The model predicts a large concentration of precipitated iron remaining after standard gettering for most as-grown iron distributions. Although changes in the precipitated iron distribution are predicted to be small, the simulated post-processing interstitial iron concentration is predicted to depend strongly on the as-grown distribution of precipitates, indicating that precipitates must be considered as internal sources of contamination during processing. To inform and validate the model, the iron distributions before and after a standard phosphorus diffusion step are studied in samples from the bottom, middle, and top of an intentionally Fe-contaminated laboratory ingot. A census of iron-silicide precipitates taken by synchrotron-based X-ray fluorescence microscopy confirms the presence of a high density of iron-silicide precipitates both before and after phosphorus diffusion. A comparable precipitated iron distribution was measured in a sister wafer after hydrogenation during a firing step. The similar distributions of precipitated iron seen after each step in the solar cell process confirm that the effect of standard gettering on precipitated iron is strongly limited as predicted by simulation. Good agreement between the experimental and simulated data supports the hypothesis that gettering kinetics is governed by not only the total iron concentration but also by the distribution of precipitated iron. Finally, future directions based on the modeling are suggested for the improvement of effective minority carrier lifetime in multicrystalline silicon solar cells.

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