n this work, we performed a study of rear side geometry of a back-contact back-junction solar cell parameters: the emitter, the back surface field (BSF) and their gap distance by exploiting two-dimensional TCAD numerical simulations. All figures of merit have been considered in order to understand the impact of the dominant ones. Higher efficiency are lead by higher emitter width/pitch ratios, lower pitches, and minimum BSF and gap widths. The impact of emitter is explained in terms of lower recombination in bulk due to a larger p-n junction, the impact of BSF and gap dimensions are explained in terms of surface recombination losses at back interface and the impact of pitch in terms of higher series resistance.
Paul Procel, Vincenzo Maccaronio, Felice Crupi, Giuseppe Cocorullo, Mauro Zanuccoli (2014). Analysis of the impact of rear side geometry on performance of back-contact back-junction solar cells [10.1109/Fotonica.2014.6843919].
Analysis of the impact of rear side geometry on performance of back-contact back-junction solar cells
ZANUCCOLI, MAURO
2014
Abstract
n this work, we performed a study of rear side geometry of a back-contact back-junction solar cell parameters: the emitter, the back surface field (BSF) and their gap distance by exploiting two-dimensional TCAD numerical simulations. All figures of merit have been considered in order to understand the impact of the dominant ones. Higher efficiency are lead by higher emitter width/pitch ratios, lower pitches, and minimum BSF and gap widths. The impact of emitter is explained in terms of lower recombination in bulk due to a larger p-n junction, the impact of BSF and gap dimensions are explained in terms of surface recombination losses at back interface and the impact of pitch in terms of higher series resistance.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
