Title :
Improved SiNx∶H passivation for industrial emitter-wrap-through multicrystalline silicon solar cells
Author :
Kumar, Prabhat ; Hacke, Peter ; Gee, James
Author_Institution :
Advent Solar Inc., Albuquerque, NM, USA
Abstract :
Silicon nitride deposited by direct plasma chemical vapor deposition (D-PECVD) and remote plasma chemical vapor deposition (R-PECVD) is tested in terms of minority carrier lifetime. Data shows that the minority carrier lifetime is improved with D-PECVD SiNx compared to RPCVD SiNx. Emitter wrap through (EWT) solar cell fabrication showed similar improvements in short-circuit current density Jsc and open-circuit voltage Voc. The best efficiency obtained on non-textured standard industrial multicrystalline silicon wafers is 16.9% with Jsc = 36.7 mA/cm2, Voc = 609 mV and fill factor FF = 75.4%. PC-1D fitting of the internal quantum efficiency (IQE) data shows front surface recombination velocity in the range of ~9e4 cm/s. This efficiency can further be improved by incorporating texturing in the process steps.
Keywords :
carrier lifetime; current density; elemental semiconductors; hydrogen; minority carriers; passivation; plasma CVD; silicon; silicon compounds; solar cells; surface recombination; SiNx:H; direct plasma chemical vapor deposition; industrial emitter-wrap-through multicrystalline silicon solar cells; industrial multicrystalline silicon wafers; internal quantum efficiency; minority carrier lifetime; open-circuit voltage; passivation; remote plasma chemical vapor deposition; short-circuit current density; silicon nitride deposition; surface recombination velocity; texturing; Charge carrier lifetime; Chemical vapor deposition; Life testing; Passivation; Photovoltaic cells; Plasma applications; Plasma chemistry; Plasma density; Silicon; Surface fitting;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2009 34th IEEE
Conference_Location :
Philadelphia, PA
Print_ISBN :
978-1-4244-2949-3
Electronic_ISBN :
0160-8371
DOI :
10.1109/PVSC.2009.5411464
