2017
DOI: 10.1002/solr.201700015
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Interface Engineering for Liquid‐Phase Crystallized‐Silicon Solar Cells on Glass

Abstract: Liquid‐phase crystallization (LPC) of silicon is a suitable method to grow large grained poly‐crystalline silicon with wafer equivalent electronic quality on cheap glass substrates. Dielectric layers between glass and silicon (called interlayer) are not only crucial for the solar cell performance, but, they also provide wetting of the silicon during crystallization. So far, LPC‐Si samples based on interlayers grown with plasma‐enhanced chemical vapor deposition (PECVD) were annealed prior to crystallization to… Show more

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Cited by 13 publications
(22 citation statements)
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“…Silicon‐rich SiN x films behave similarly to amorphous silicon layers which provide a high level of chemical passivation but a rather low field‐effect passivation . The SiN x film that we use is nitrogen‐rich . Thus, it contains a high number of K + ‐centers (NSi•) that are responsible for the high number of Q IL,eff that we observed (4.5 × 10 12 cm −2 ).…”
Section: Resultsmentioning
confidence: 66%
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“…Silicon‐rich SiN x films behave similarly to amorphous silicon layers which provide a high level of chemical passivation but a rather low field‐effect passivation . The SiN x film that we use is nitrogen‐rich . Thus, it contains a high number of K + ‐centers (NSi•) that are responsible for the high number of Q IL,eff that we observed (4.5 × 10 12 cm −2 ).…”
Section: Resultsmentioning
confidence: 66%
“…The SiN x layer appears compact, well defined and no voids are detected. We attribute the smooth interface achieved with the O/N IL stack to the nitrogen‐rich character of the developed SiN x layer in which hydrogen is bonded to nitrogen only (no SiH bonds present) . This makes the layer more stable upon annealing as compared to silicon‐rich SiN x layers that exhibit SiH bonds …”
Section: Resultsmentioning
confidence: 99%
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