Lateral transport in silicon solar cells

Lateral charge carrier transport in crystalline silicon solar cells. To investigate the contribution of these sheet conductances to lateral transport in solar cells, we develop a model that calculates the effective series resistance of two sheet resistances coupled via a contact resistance. In solar cells, the upper sheet resistance describes the highly conductive region like a diffusion or a transparent conductive oxide, whereas the lower sheet resistance describes the silicon absorber. We find that the coupling contact resistance needs to be low to benefit from the lateral current flow in the silicon absorber. We show experimentally for silicon heterojunction solar cells that the silicon absorber supports lateral minority charge carrier transport for well-passivated devices. Another finding is that there is no principle advantage for coupling of the two sheet resistances for rear-junction or front-junction solar cells, as the pn-junction (for front-junction solar cells) does not prevent coupling.