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Imec Reports Record Efficiencies for Large-Area Epitaxial Thin-Film Silicon Solar Cells

Wed, 07/14/2010 - 11:49am
Imec has realized large-area (70cm²) epitaxial solar cells with efficiencies of up to 16.3% on high-quality substrates. And efficiencies of up to 14.7% were achieved on large-area low-quality substrates, showing the potential of thin-film epitaxial solar cells for industrial manufacturing. The results were achieved within Imec’s silicon solar cell industrial affiliation program (IIAP) that explores and develops advanced process technologies aiming a sharp reduction in silicon use, while increasing cell efficiency and hence further lowering substantially the cost per Watt peak. Besides wafer-based bulk silicon solar cells Imec aims at developing epitaxial thin-film ( Imec realized 20µm thick high-quality epitaxial silicon stacks both on top of a highly-doped high-quality substrate and on a low-cost, UMG (upgraded metallurgic grade)-type, multi-crystalline Si substrate. The p+-type back surface field (BSF), the p-type base and the n-type front-side emitter were grown by chemical vapor deposition. The light-trapping scheme consists of plasma texturing of the front surface in combination with an internal porous silicon Bragg reflector positioned at the epitaxial/substrate interface. The cells on the high-quality substrate are contacted with copper plating. For the cells made on the low-quality substrates, the metallization is realized with screenprinting, which is the final step after the formation of the diffused front surface field (FSF) and the silicon nitride antireflection coating.   In this way, the epitaxially grown ‘wafer equivalent’ substrates are fully compatible with standard industrial (bulk) solar cell processing. “These efficiencies of up to 16.3% on high-quality substrates and of up to 14.7% on low-cost substrates show that industrial-level efficiencies are within reach for this technology,” said Jef Poortmans, director Imec energy/solar program. “By implementing copper-based contact schemes, we can further increase the efficiency making epitaxial thin-film silicon solar cells on low-cost wafers an interesting industrial technology.”
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