Title :
18.2% efficient multicrystalline silicon cell
Author :
Zhao, Jianhua ; Wang, Aihua ; Altermatt, Pietro P. ; Green, Martin A.
Author_Institution :
Photovoltaics Special Res. Centre, Univ. of New South Wales, Sydney, NSW, Australia
fDate :
29 Sep-3 Oct 1997
Abstract :
This paper reports an 18.2% energy conversion efficiency and a 645 mV open-circuit voltage from a multicrystalline silicon cell with a planar front surface tested at the National Renewable Energy Laboratory and Sandia National Laboratories under the 100 mW/cm2 AM1.5 global spectrum at 25°C. This is one of the highest confirmed conversion efficiencies and the highest confirmed open-circuit voltage ever reported to date for a multicrystalline silicon cell. Significantly, these HEM (heat exchange method) multicrystalline silicon solar cells were processed with the standard PERL (passivated emitter, rear locally-diffused) cell high-temperature processing sequence originally developed for float zoned wafers. The high temperature PERL cell processing did not damage the substrate properties
Keywords :
carrier lifetime; elemental semiconductors; minority carriers; semiconductor device manufacture; semiconductor device testing; silicon; solar cells; substrates; 18.2 percent; 25 C; 645 mV; PERL high-temperature processing sequence; Si; energy conversion efficiency; heat exchange method; multicrystalline silicon cell; open-circuit voltage; planar front surface; substrate properties; Energy conversion; Laboratories; Photovoltaic cells; Renewable energy resources; Silicon; Solar heating; Standards development; Temperature; Testing; Voltage;
Conference_Titel :
Photovoltaic Specialists Conference, 1997., Conference Record of the Twenty-Sixth IEEE
Conference_Location :
Anaheim, CA
Print_ISBN :
0-7803-3767-0
DOI :
10.1109/PVSC.1997.654070
