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Recent advances in hot-wire CVD R&D at NREL: From 18% silicon heterojunction cells to silicon epitaxy at glass-compatible temperatures |
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| Authors: | Howard M Branz Charles W Teplin David L Young Matthew R Page Eugene Iwaniczko Lorenzo Roybal Russell Bauer A Harv Mahan Yueqin Xu Pauls Stradins Tihu Wang Qi Wang |
| Affiliation: | Silicon Materials and Devices Group, National Center for Photovoltaics, National Renewable Energy Laboratory, 1617 Cole Blvd., Golden, CO 80401, USA |
| Abstract: | Our research aiming to improve silicon photovoltaic materials and devices extensively utilizes hot-wire chemical vapor deposition (HWCVD). We have recently achieved 18.2% heterojunction silicon solar cells by applying HWCVD a-Si:H front and back contacts to textured p-type silicon wafers. This is the best reported p-wafer heterojunction solar cell by any technique. We have also dramatically improved the quality of HWCVD silicon epitaxy and recently achieved 11 μm of epitaxial growth at a rate of 110 nm/min. |
| Keywords: | Heterojunctions Solar cells Epitaxial growth Silicon Hot-wire deposition Crystallization Efficiency Passivation |
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