Carrier trap passivation in multicrystalline Si solar cells by hydrogen from SiNx:H layers

Hydrogenation by high temperature rapid annealing of SiNx:H is found to be very effective on the defects responsible for the carrier trapping effect in multicrystalline silicon. The passivation effect is reversible and is annihilated by a long thermal annealing. As for the passivation of deep, lifet...

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Veröffentlicht in:	Applied physics letters 2006-07, Vol.89 (1)
Hauptverfasser:	Dekkers, H. F. W., Carnel, L., Beaucarne, G.
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Sprache:	eng
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container_title	Applied physics letters
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creator	Dekkers, H. F. W. Carnel, L. Beaucarne, G.
description	Hydrogenation by high temperature rapid annealing of SiNx:H is found to be very effective on the defects responsible for the carrier trapping effect in multicrystalline silicon. The passivation effect is reversible and is annihilated by a long thermal annealing. As for the passivation of deep, lifetime killing defects, the efficiency of “trap” removal by the short thermal treatment depends on the density of the SiNx:H layer. This effect is, in fact, well correlated with performance improvement observed in solar cells. The parallelism between the trap and recombination center passivation effects suggests that they originate from the same defect.
doi_str_mv	10.1063/1.2219142
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title	Carrier trap passivation in multicrystalline Si solar cells by hydrogen from SiNx:H layers
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