Volume 3, 2012
Topical issue: Photovoltaic Technical Conference (PVTC 2011)
|Number of page(s)||7|
|Published online||14 August 2012|
Evolutionary process development towards next generation crystalline silicon solar cells : a semiconductor process toolbox application
IMEC, Kapeldreef 75, Leuven, Belgium
2 Katholieke Universiteit Leuven, Leuven, Belgium
Received: 8 August 2011
Accepted: 29 May 2012
Published online: 14 August 2012
Bulk crystalline Silicon solar cells are covering more than 85% of the world’s roof top module installation in 2010. With a growth rate of over 30% in the last 10 years this technology remains the working horse of solar cell industry. The full Aluminum back-side field (Al BSF) technology has been developed in the 90’s and provides a production learning curve on module price of constant 20% in average. The main reason for the decrease of module prices with increasing production capacity is due to the effect of up scaling industrial production. For further decreasing of the price per wattpeak silicon consumption has to be reduced and efficiency has to be improved. In this paper we describe a successive efficiency improving process development starting from the existing full Al BSF cell concept. We propose an evolutionary development includes all parts of the solar cell process: optical enhancement (texturing, polishing, anti-reflection coating), junction formation and contacting. Novel processes are benchmarked on industrial like baseline flows using high-efficiency cell concepts like i-PERC (Passivated Emitter and Rear Cell). While the full Al BSF crystalline silicon solar cell technology provides efficiencies of up to 18% (on cz-Si) in production, we are achieving up to 19.4% conversion efficiency for industrial fabricated, large area solar cells with copper based front side metallization and local Al BSF applying the semiconductor toolbox.
© Owned by the authors, published by EDP Sciences, 2012
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