Characterization and application of rapid thermal oxide surface passivation for the highest efficiency RTP silicon solar cells

机译：快速热氧化物表面钝化对最高效率RTP硅太阳能电池的表征及应用

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This paper presents the development and analysis of the first 19%-efficient silicon solar cells fabricated by rapid thermal processing (RTP). These cells required no high-temperature conventional furnace processing (CFP). Improved front surface passivation by rapid thermal oxidation (RTO) was found to reduce S_front from 7.5×10 5 to 2×104 cm/s, decrease J_0e by almost an order of magnitude, and increase cell efficiency by about 1% (absolute). An additional 1% gain in efficiency was achieved by applying a thicker screen-printed, RTP-alloyed Al-BSF instead of the standard 1 μm evaporated Al-BSF. Because of the rapid heating rate in RTP, the RTP Al-BSF also gives a more uniform and effective BSF compared with the CFP Al-BSF. In comparison with furnace processed cells, this RTP/RTO process reduced the time for diffusion and oxidation from 330 to 10 min without sacrificing efficiency. To reduce back surface recombination further, RTO can be grown on the back. PCD characterization of RTO on 1.3 Ωcm Si reveals an S_back well below 100 cm/s, which can result in >20% efficient RTP/RTO cells

机译：本文介绍了快速热处理（RTP）制造的第一个19％效率硅太阳能电池的开发和分析。这些细胞不需要高温常规炉加工（CFP）。发现通过快速热氧化（RTO）的改进的前表面钝化将S _{前部从7.5×10 5 达到2×10 4 cm / S，减小J _{0e 几乎幅度，并提高电池效率约1％（绝对）。通过施加较厚的丝网印刷的RTP合金的Al-BSF而不是标准1μm蒸发的Al-BSF来实现效率的额外1％的增益。由于RTP中的快速加热速率，与CFP Al-BSF相比，RTP Al-BSF还给出了更均匀和有效的BSF。与炉加工细胞相比，该RTP / RTO工艺在不牺牲效率的情况下将扩散和氧化从330〜10分钟降低。为了再进一步减少后表面重组，可以在背面生长RTO。 RTO对1.3Ωcmsi的PCD表征显示S _{返回良好低于100cm / s的s _{返回率，这可能导致> 20％效率的RTP / RTO细胞}}}}

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《IEEE International Conference on Computer Science and Automation Engineering》|2011年||共4页
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Doshi P.; Moschner J.; Jeong J.; Rohatgi A.; Singh R.; Narayanan S.;
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1. Ultrathin Oxide Passivation Layer by Rapid Thermal Oxidation for the Silicon Heterojunction Solar Cell Applications [J] . Youngseok Lee, Woongkyo Oh, Vinh Ai Dao, International Journal of Photoenergy . 2012,第Pta3期

机译：快速热氧化的超薄氧化物钝化层，用于硅异质结太阳能电池
2. Ultrathin Oxide Passivation Layer by Rapid Thermal Oxidation for the Silicon Heterojunction Solar Cell Applications [J] . YoungseokLee, WoongkyoOh, Vinh AiDao, International Journal of Photoenergy . 2012,第1期

机译：快速热氧化形成的超薄氧化物钝化层，用于硅异质结太阳能电池
3. Efficiency Enhancement of Multicrystalline Silicon Solar Cells by Inserting Two-Step Growth Thermal Oxide to the Surface Passivation Layer [J] . Liao Shun Sing, Lin Yueh Chin, Chuang Chuan Lung, International Journal of Photoenergy . 2017,第Pta2期

机译：通过将两步生长热氧化物插入表面钝化层来效率提高多晶硅太阳能电池
4. Characterization and application of rapid thermal oxide surface passivation for the highest efficiency RTP silicon solar cells [C] . Doshi P., Moschner J., Jeong J., IEEE International Conference on Computer Science and Automation Engineering . 2011

机译：快速热氧化物表面钝化对最高效率RTP硅太阳能电池的表征及应用
5. Hydrogen passivation of defects and rapid thermal processing for high-efficiency silicon ribbon solar cells. [D] . Jeong, Ji-Weon. 2002

机译：缺陷的氢钝化和高效硅带太阳能电池的快速热处理。
6. Improving the efficiency of rear emitter silicon solar cell using an optimized n-type silicon oxide front surface field layer [O] . Sangho Kim, Jinjoo Park, Pham Duy Phong, -1

机译：使用优化的n型氧化硅正面场层提高后发射极硅太阳能电池的效率
7. Anodic oxidations: Excellent process durability and surface passivation for high efficiency silicon solar cells [O] . N.E. Grant, T.C. Kho, K.C. Fong, 2019

机译：阳极氧化：高效硅太阳能电池的优异工艺耐久性和表面钝化
8. Effective passivation of the low resistivity silicon surface by a rapid thermal oxide/PECVD silicon nitride stack and its application to passivated rear and bifacial Si solar cells [R] . Rohatgi, A. , Narasimha, S. , Ruby, D. S. 1998

机译：通过快速热氧化物/ pECVD氮化硅叠层有效钝化低电阻率硅表面及其在钝化后部和双面si太阳能电池中的应用

Characterization and application of rapid thermal oxide surface passivation for the highest efficiency RTP silicon solar cells

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