Journal
SOLAR ENERGY MATERIALS AND SOLAR CELLS
Volume 256, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.solmat.2023.112356
Keywords
Silicon nitride; Silicon oxynitride; Interface state density; Hydrogen; Fixed charge density; Surface passivation
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In this study, the optical, chemical, and electrical properties of SiNx and SiOxNy films prepared under different process conditions were experimentally analyzed. The C-V measurements showed that SiOxNy films have lower interface state density and fixed charge density than SiNx films. Additionally, calculations on the FTIR spectra indicated that SiNx films have a significantly higher hydrogen amount compared to SiOxNy films, which is important for reducing interface traps. The passivation results obtained from PCD measurement were explained using C-V and FTIR measurements for single SiNx, single SiOxNy, and their stack layers on p-type and n-type Si wafers. The results suggest that depositing a very thin SiOxNy layer with low Dit beneath SiNx layer with high Qf and H amount provides superior passivation on p-type and n-type Si wafers, and this passivation is further improved by a subsequent fast-firing process.
SiNx and SiOxNy layers deposited by the PECVD method are commonly used in silicon solar cells for their excellent thin film properties. In this study, we perform an experimental analysis of the optical, chemical and electrical properties of these films prepared under different process conditions. The C-V measurements for the interface analysis reveal that SiOxNy layers for any refractive index have lower interface state density and fixed charge density than SiNx layers. Additionally, our calculations on the FTIR spectra indicate that SiNx, when compared with SiOxNy, has a significantly higher hydrogen amount which is important in reducing the interface traps. Furthermore, we explain the passivation results obtained from PCD measurement for single SiNx, single SiOxNy and their stack layers on p-type and n-type Si wafers by C-V and FTIR measurements. Our results suggest that depositing a very thin SiOxNy having low Dit beneath SiNx having high Qf and H amount provides superior passivation on p and n-type Si wafers, which is improved further by a subsequent fast-firing process.
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