Influence of defect type on hydrogen passivation efficacy in multicrystalline silicon solar cells

Coletti, G.; Dekkers, H.F.W.; Bertoni, M.I.; Hudelson, S.; Newman, B.K.; Fenning, D.P.; Cornagliotti, E.; Zuschlag, A.; Micard, G.; Lai, B.; Buonassisi, T.

Influence of defect type on hydrogen passivation efficacy in multicrystalline silicon solar cells

article

2010

Coletti, G.

Dekkers, H.F.W.

Bertoni, M.I.

Hudelson, S.

Newman, B.K.

Fenning, D.P.

Cornagliotti, E.

Zuschlag, A.

Micard, G.

Lai, B.

Buonassisi, T.

We examine the effectiveness of hydrogen passivation as a function of defect type and microstructure at grain boundaries (GBs) in multicrystalline silicon. We analyze a solar cell with alternating mm-wide bare and SiNx-coated stripes using laser-beam-induced current, electron backscatter diffraction, X-ray fluorescence microscopy, and defect etching to correlate pre- and post-hydrogenation recombination activity with GB character, density of iron-silicide nanoprecipitates, and dislocations. A strong correlation was found between GB recombination activity and the nature/density of etch pits along the boundaries, while iron silicide precipitates above detection limits were found to play a less significant role.

TNO Identifier

847224

Repository link

https://resolver.tno.nl/uuid:953a4da1-5794-4fb1-b722-317813e7ffd5

Publisher

ECN

Collation

5 p.

Place of publication

Petten

Files

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Influence of defect type on hydrogen passivation efficacy in multicrystalline silicon solar cells

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