Title :
Simulation of emitter doping profiles formed by industrial POCl3 processes
Author :
Abbott, Malcolm ; Scardera, Giuseppe ; McIntosh, Keith R. ; Meisel, Andreas
Author_Institution :
PV Lighthouse, Coledale, NSW, Australia
Abstract :
This paper quantifies the recombination losses associated with industrial POCl3 emitters. We examine three standard (STD) recipes and four of DuPont´s lightly doped emitter (LDE) recipes. We find that an STD emitter has a higher effective surface recombination velocity than an LDE recipe of the same sheet resistance because it has a higher surface concentration. More significantly, we find that STD emitters have greater SRH recombination within the doped region, probably because they contain a greater concentration of inactive phosphorus atoms which are known to form silicon phosphide precipitates. These conclusions are drawn from simulations and experiments on the lifetime of test wafers and the quantum efficiency of solar cells. It is shown how this data can be used to distinguish the SRH recombination that occurs at the surface from the SRH that occurs inside an emitter.
Keywords :
doping profiles; oxygen compounds; phosphorus compounds; solar cells; surface recombination; LDE recipes; POCl3; SRH recombination; STD emitter; doped region; emitter doping profiles; industrial POCl3 emitters; lightly doped emitter recipes; phosphorus atoms; quantum efficiency; recombination losses; silicon phosphide precipitates; solar cells; standard recipes; surface concentration; surface recombination velocity; test wafers; Electrical resistance measurement; Photovoltaic cells; Radiative recombination; Resistance; Semiconductor device modeling; Semiconductor process modeling; Silicon; emitter; modeling; silicon;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2013 IEEE 39th
Conference_Location :
Tampa, FL
DOI :
10.1109/PVSC.2013.6744402
