Alternatives for Rear-Surface Passivation in III-V on Si Multi-junction Solar Cells

In the recent developments in the field of III-V on Si dual-junction solar cells, low attention has been paid to optimizing the device configuration to maximize its photovoltaic performance. The few practical implementations reported heretofore have been based on III-V solar cell processing techniques. Although the fabrication of conventional Si structures is a well-known technology, certain steps have been found to be incompatible with III-V semiconductors, primarily due to their high thermal load. Accordingly, in this work we discuss the applicability of different alternatives for the Si rear-surface passivation (Al-BSF, PERC- and HIT-like schemes) in III-V/Si dual-junction solar cell structures. Using numerical simulations, a comparison of the Si bottom cell performance in a GaAsP/Si dual-junction solar cell structure is presented for the mentioned alternatives.