Title :
Influence of the Schottky barrier height on the silicon solar cells
Author :
Thibert, S. ; Jourdan, J. ; Bechevet, B. ; Chaussy, D. ; Reverdy-Bruas, N. ; Beneventi, D.
Author_Institution :
MPO-Energy, Averton, France
Abstract :
With the recent introduction of ion implantation in the photovoltaic industry, it is now easier to carefully tailor the emitter doping profile. However the metallization layout should be optimized in the same time, as they are closely linked via the metal/silicon contact resistivity. In this work, an advanced co-optimization procedure allows finding out the influence of the Schottky barrier height on the metal grid design and the optimal doping profile. The theoretical electrical properties of a 2 × 2 cm2 ideal silicon solar cell are also computed for each optimal combination. According to this work, the maximal achievable efficiency decreases from 26.2 % to 25.3 % if the Schottky barrier height increases from 0.5 eV to 0.9 e V.
Keywords :
Schottky barriers; contact resistance; elemental semiconductors; integrated circuit metallisation; ion implantation; semiconductor doping; silicon; solar cells; Schottky barrier height; Si; advanced co-optimization procedure; electrical property; emitter doping profile; ion implantation; metal grid design; metal-silicon contact resistivity; metallization layout; optimal doping profile; photovoltaic industry; silicon solar cells; Conductivity; Doping profiles; Metals; Photovoltaic cells; Schottky barriers; Silicon; Schottky barrier; co-optimization; ion implantation; light induced plating; photovoltaic; power loss; silicon solar cell;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2013 IEEE 39th
Conference_Location :
Tampa, FL
DOI :
10.1109/PVSC.2013.6745023
