Saint-Cast, PierrePierreSaint-CastBillot, EtienneEtienneBillotRichter, ArminArminRichterHofmann, MarcMarcHofmannBenick, JanJanBenickRentsch, JochenJochenRentschPreu, RalfRalfPreuGlunz, Stefan W.Stefan W.Glunz2022-03-122022-03-122012https://publica.fraunhofer.de/handle/publica/37736710.1016/j.tsf.2012.08.050In this work, we present a systematic study of the surface recombination velocity of boron-diffused Si wafer passivated with plasma-enhanced chemical-vapor-deposited (PECVD) AlOx layers. Saturation current densities in the range of 5.2-38 fA cm(-2) (at 300 K) were achieved on planar surfaces. In particular, we present an industrially relevant boron emitter, allowing for about 700 mV open circuit voltage on textured surfaces, after a firing process. This high passivation quality could be achieved using AlOx passivation layers deposited by PECVD. The passivation quality is found to be equivalent to AlOx layers deposited by plasma-assisted atomic-layer-deposition. A wide range of surface doping concentration (2.5-70x10(18) cm(-3)) was investigated. The emitters used here allow a high resolution in the determination of the surface recombination velocity upper limit. Our simulations, based on Fermi-Dirac statistics, indicate that only very shallow emitters can be used to further increase the resolution on the determination of the surface recombination velocity.en621conference paper