首页> 外文会议>European Photovoltaic Solar Energy Conference >>0.4 ABSOLUT EFFICIENCY GAIN BY FAST NI-CU-SN ELECTROPLATING OF SOLAR CELLS WITH FINE LINE PRINTED CONTACTS BY A SINGLE SIDE WET TREATMENT TECHNOLOGY

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>0.4 ABSOLUT EFFICIENCY GAIN BY FAST NI-CU-SN ELECTROPLATING OF SOLAR CELLS WITH FINE LINE PRINTED CONTACTS BY A SINGLE SIDE WET TREATMENT TECHNOLOGY

机译：>通过单侧湿处理技术快速Ni-Cu-Sn电镀快速Ni-Cu-Sn电镀，通过单侧湿处理技术进行0.4％的Absolut效率增益

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The front grid of screen printed solar cells strongly limits the efficiency in terms of shading and resistive losses. Main focus of this work was to provide an alternative two-step front contact process consisting of fine printing followed by an adapted plating stack of Ni/Cu/Sn. Results on improved fine line printing as well as a new plating technique will be presented for the first time. Optimized parameters for printing with newly developed techniques as well as adapted plating techniques will be shown. Solar cells using the new developed front metallization have been characterized and compared with standard screen printed solar cells. Efficiency gain of more than 0.4% has been achieved so far.

机译：屏幕印刷太阳能电池的前网格强烈限制遮荫和电阻损耗方面的效率。这项工作的主要重点是提供一种替代的两步前接触过程，包括精细印刷，然后是Ni / Cu / Sn的改进的电镀堆。导致改进的细线印刷以及新电镀技术将首次呈现。将显示用新开发的技术进行打印的优化参数以及适应电镀技术。使用新开发的前金属化的太阳能电池已经表征并与标准屏幕印刷太阳能电池进行了表征。到目前为止，已经实现了超过0.4％的效率增益。

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《European Photovoltaic Solar Energy Conference》|2009年||共3页
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作者
H. H. Kuehnlein; N. Koesterke; G. Cimiotti; E. Hartmannsgruber; N. Buerger; H. Nussbaumer; D. Luetke-Notarp; M. Becker;
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原文格式 PDF
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中图分类 TK51-53;
关键词
Metallization; Electrodeposition; Screen Printing;

机译：金属化;电沉积;丝网印刷;

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专利

1. Analysis of Fine-Line Screen and Stencil-Printed Metal Contacts for Silicon Wafer Solar Cells [J] . Shanmugam V., Wong J., Peters I.M., Photovoltaics, IEEE Journal of . 2015,第2期

机译：硅晶片太阳能电池的细线丝网印刷和模版印刷金属触点分析
2. Electrical properties of fine line printed and light-induced plated contacts on silicon solar cells [J] . M. Horteis, J. Bartsch, S. Binder Progress in photovoltaics . 2010,第4期

机译：硅太阳能电池上的细线印刷和光感应镀覆触点的电性能
3. Screen-printed contacts with H-patterned n-type passivated emitter rear totally diffused solar cell and front-side boron selective emitter formed by wet chemical etching [J] . Simayi Shalamujiang, Kida Yasuhiro, Utsunomiya Satoshi, Japanese journal of applied physics . 2018,第8S3期

机译：H型n型钝化发射极背面全扩散太阳能电池和通过湿化学蚀刻形成的正面硼选择性发射极的丝网印刷触点
4. >0.4 ABSOLUT EFFICIENCY GAIN BY FAST NI-CU-SN ELECTROPLATING OF SOLAR CELLS WITH FINE LINE PRINTED CONTACTS BY A SINGLE SIDE WET TREATMENT TECHNOLOGY [C] . H. H. Kuehnlein, N. Koesterke, G. Cimiotti, European Photovoltaic Solar Energy Conference . 2009

机译：通过单一侧湿处理技术快速Ni-Cu-Sn电镀快速Ni-Cu-Sn电镀，通过单一侧湿处理技术进行0.4％的Absolut效率增益
5. Formation of screen-printed contacts on multicrystalline silicon (mc-Si) solar cells. [D] . Mehta, Vishal R. 2010

机译：在多晶硅（mc-Si）太阳能电池上形成丝网印刷触点。
6. Development of Screen-Printed Texture-Barrier Paste for Single-Side Texturization of Interdigitated Back-Contact Silicon Solar Cell Applications [O] . Yu-Shun Chiu, Chin-Lung Cheng, Thou-Jen Whang, 2013

机译：用于指叉背接触式硅太阳能电池应用的单面纹理化的丝网印刷纹理隔离膏的开发
7. Development of High Efficiency Back Passivated Silicon Solar Cells with Screen Printed Contacts [O] . Bounaas L., Auriac N., Grange B., 2012

机译：具有丝网印刷触点的高效背面钝化硅太阳能电池的开发

>0.4 ABSOLUT EFFICIENCY GAIN BY FAST NI-CU-SN ELECTROPLATING OF SOLAR CELLS WITH FINE LINE PRINTED CONTACTS BY A SINGLE SIDE WET TREATMENT TECHNOLOGY

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