MWT meets PERC: Towards 20% efficient industrial silicon solar cells

2011 37th IEEE Photovoltaic Specialists Conference Pub Date : 2011-06-19 DOI:10.1109/PVSC.2011.6186217
D. Biro, B. Thaidigsmann, F. Clement, A. Wolf, E. Lohmuller, S. Mack, T. Fellmeth, A. Drews, A. Spribille, E. A. Wotke, F. Lottspeich, M. Hofmann, U. Jager, R. Preu
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引用次数: 2

Abstract

We report latest progress in combining the Metal Wrap Trough (MWT) cell structure with passivated back surfaces (PERC approach). By adapting our industrial process sequences, we integrate MWT and PERC structures in remarkably lean process sequences, while industrially available equipment is being used in our PV-TEC pilot line. We demonstrate 19.4 % (18.9 % stabilized) efficient MWT-PERC cells with an industrial process on large area (149 cm2) Czochralski grown p-type base material. We further present advanced p-type float-zone silicon MWT-PERC solar cells reaching efficiencies of 20.1 % on large area. This is to our knowledge the highest value for large area MWT-PERC solar cells reported so far. We further show latest results on emerging technologies which we believe will enable the industrially fabricated MWT-PERC solar cells to surpass 20 % efficiency on p-type Czochralski silicon.
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MWT满足PERC:迈向20%效率的工业硅太阳能电池
我们报告了将金属包裹槽(MWT)电池结构与钝化背表面(PERC方法)相结合的最新进展。通过调整我们的工业工艺序列,我们将MWT和PERC结构集成在非常精益的工艺序列中,而工业上可用的设备正在我们的PV-TEC中试生产线上使用。我们在大面积(149 cm2)的Czochralski生长的p型基材上展示了19.4%(稳定18.9%)效率的MWT-PERC电池。我们进一步提出了先进的p型浮区硅MWT-PERC太阳能电池,在大面积上效率达到20.1%。据我们所知,这是迄今为止报道的大面积MWT-PERC太阳能电池的最高值。我们进一步展示了新兴技术的最新成果,我们相信这些技术将使工业制造的MWT-PERC太阳能电池在p型Czochralski硅上的效率超过20%。
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2011 37th IEEE Photovoltaic Specialists Conference
2011 37th IEEE Photovoltaic Specialists Conference
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