Title :
Analysis of Selective Phosphorous Laser Doping in High-Efficiency Solar Cells
Author :
Kray, Daniel ; McIntosh, Keith R.
Author_Institution :
Fraunhofer Inst. for Solar Energy Syst., Freiburg, Germany
Abstract :
This paper focuses on the analysis of local phosphorous laser doping in high-efficiency solar cells. Those so-called selective emitters are intended to reduce the contact recombination and resistance in order to increase the solar conversion efficiency. Sample solar cells are prepared using laser chemical processing as the laser doping technique and analyzed via analytical models and suns-V oc measurements at high illumination densities. It can be shown that fully ohmic contacts can be manufactured on the investigated selective emitters which exhibit low dark saturation currents. The specific recombination current density of the local laser doping is determined experimentally to be < 8.5 times 10-13 A/cm2 for planar surfaces.
Keywords :
chemical lasers; laser materials processing; solar cells; contact recombination; contact resistance; high-efficiency solar cells; laser chemical processing; laser doping technique; phosphorous laser doping; solar conversion efficiency; Analytical models; Chemical analysis; Chemical lasers; Chemical processes; Contact resistance; Doping; Laser modes; Photovoltaic cells; Sun; Surface emitting lasers; Doping; laser chemistry applications; photovoltaic cells;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2009.2024032
