Title :
Laser-Doped Back-Contact Solar Cells
Author :
Dahlinger, Morris ; Bazer-Bachi, Barbara ; Roder, Tobias C. ; Kohler, Jurgen R. ; Zapf-Gottwick, Renate ; Werner, Jurgen H.
Author_Institution :
Inst. for Photovoltaics, Univ. of Stuttgart, Stuttgart, Germany
Abstract :
We present laser-doped interdigitated back-contacted solar cells with a record efficiency η = 22.0%. The high versatility and spatial resolution of our laser doping process enable local n-type and p-type doping with a precision below 30 μm and avoid any masking for doping. Nevertheless, the presented solar cells use photolithography (masking) to define the contact area and metallization layout. Quasi-steady-state photoconductance measurements prove the low-saturation current density of the laser doping. We process solar cells with varied pitch and emitter fraction and compare their measured current density-voltage characteristics with a 3-D solar cell simulation. The good agreement of the simulation and experimental data allows a reliable efficiency forecast when optimizations are applied. Furthermore, the influence of the base-busbar region on solar cell performance is discussed.
Keywords :
current density; photoconductivity; photolithography; semiconductor doping; solar cells; 3D solar cell simulation; base-busbar region; current density-voltage characteristics; emitter fraction; laser doping process; laser-doped interdigitated back-contacted solar cell; local n-type doping; low-saturation current density; masking; metallization layout; p-type doping; photolithography; quasisteady-state photoconductance measurement; spatial resolution; Current measurement; Doping; Measurement by laser beam; Passivation; Photovoltaic cells; Resistance; Surface emitting lasers; Back contact; back junction; boron emitter; high efficiency (IBC); laser doping; n-type; simulation;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2015.2411058
