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Towards 18% efficiency on below 100µm thick multicrystalline silicon wafers from the RST process

Towards 18% efficiency on below 100µm thick multicrystalline silicon wafers from the RST process

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DE MORO, Fabrice, E. JOLIVET, E. TUPIN, R. VARROT, C. BIGOT, B. HEILBRONN, Philipp KELLER, Sven SEREN, Benjamin ALBRECHT, Giso HAHN, 2013. Towards 18% efficiency on below 100µm thick multicrystalline silicon wafers from the RST process. 28th European Photovoltaic Solar Energy Conference and Exhibition. Paris, 30. Sep 2013 - 4. Okt 2013. In: Proceedings of the 28th European Photovoltaic Solar Energy Conference and Exhibition (EU PVSEC 2013) ; Paris, France ; conference 30 September - 04 October 2013. 28th European Photovoltaic Solar Energy Conference and Exhibition. Paris, 30. Sep 2013 - 4. Okt 2013. München:WIP, pp. 937-940. ISBN 3-936338-33-7

@inproceedings{De Moro2013Towar-25272, title={Towards 18% efficiency on below 100µm thick multicrystalline silicon wafers from the RST process}, year={2013}, doi={10.4229/28thEUPVSEC2013-2CO.2.6}, isbn={3-936338-33-7}, address={München}, publisher={WIP}, booktitle={Proceedings of the 28th European Photovoltaic Solar Energy Conference and Exhibition (EU PVSEC 2013) ; Paris, France ; conference 30 September - 04 October 2013}, pages={937--940}, author={De Moro, Fabrice and Jolivet, E. and Tupin, E. and Varrot, R. and Bigot, C. and Heilbronn, B. and Keller, Philipp and Seren, Sven and Albrecht, Benjamin and Hahn, Giso} }

Keller, Philipp Tupin, E. De Moro, Fabrice 2013-12-04T10:26:00Z Albrecht, Benjamin De Moro, Fabrice Jolivet, E. Varrot, R. Bigot, C. deposit-license Seren, Sven 2013-12-04T10:26:00Z Bigot, C. Heilbronn, B. Varrot, R. Towards 18% efficiency on below 100µm thick multicrystalline silicon wafers from the RST process Tupin, E. Jolivet, E. The RST process is a ribbon process aimed at producing low cost and very thin multicrystalline silicon wafers, with a wafer cost perspective down to 10 €-cent/Wp, provided high conversion efficiency can be reached. A general approach has been identified for the achievement of 18% conversion efficiency on solar cells made out of the RST material. This approach firstly relies on the implementation of high efficiency solar cell processes adapted to the <100 μm RST wafers. The necessary improvement of the material quality is expected through (i) the reduction of the density of SiC inclusions at the cell surface for the achievement of high FF values, and (ii) the increase of the minority carrier lifetime by both the reduction of the metallic contamination and the control of the crystalline texture of the silicon ribbon.n. Heilbronn, B. Albrecht, Benjamin 2013 Proceedings of the 28th European Photovoltaic Solar Energy Conference and Exhibition (EU PVSEC 2013). - Paris, 2013. - S. 937-940. - ISBN 3-936338-33-7 Seren, Sven eng Hahn, Giso Hahn, Giso Keller, Philipp

Dateiabrufe seit 01.10.2014 (Informationen über die Zugriffsstatistik)

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