Abstract
Passivated contacts based on low-pressure chemical vapor deposited (LPCVD) heavily-doped poly-Si and a thin SiO x layer are explored for the application in an interdigitated back contact (IBC) solar cell. The poly-Si/SiO x contacts are realized by applying wet-chemically grown SiO x tunnel layers and amorphous Si (a-Si) layers doped via ion implantation that are subsequently transformed into poly-Si/SiO x contacts by a high temperature step. The impact of doping species, ion dose, and poly-Si thickness on the surface passivation of such contacts is studied. Excellent J 0 values down to 4.5 fA/cm2 were measured for n+ poly-Si contacts, while J 0 values of 22 fA/cm2 were obtained for p+-poly-Si contacts. Solar cells with top/rear poly-Si contacts were processed and V oc values up to 709 mV and FF values above 81% were measured. Furthermore, the upper bound for the parasitic absorption losses in 10–40 nm thick poly-Si films was quantified to be about 0.5 mA/cm2 per 10 nm poly-Si layer thickness.
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