Huyeng, Jonas D.Jonas D.HuyengEfinger, RaphaelRaphaelEfingerSpribille, AlmaAlmaSpribilleKeding, RomanRomanKedingDoll, OliverOliverDollClement, FlorianFlorianClement2022-03-052022-03-052017https://publica.fraunhofer.de/handle/publica/25110810.1016/j.egypro.2017.09.309This work presents an analysis of co-diffused back-contact back-junction silicon solar cells, fabricated by utilizing screen printed boron-doping paste. The feasibility of this paste has been shown in earlier work by the authors. Due to its promising performance, comparable to earlier used boron-doped silicate glass coatings, a proof-of-principle cell run was performed yielding, several small devices with various unit cell geometries and full-wafer size devices. The achieved mean conversion efficiency of nine small devices was η = 20.9 %, while the best full-wafer size device achieved η = 20.6 %. The cells are analyzed with a focus on the significant difference between small and large cells in short circuit density (ΔJSC = -4%) and the current limitations of the built cells assessed by numerical simulations. A set of improved parameters derived from earlier work at Fraunhofer ISE suggests an efficiency potential exceeding η = 23 %. The short- and long-term measures necessary to realize this potential are described in this paper.enjournal article