FAILURE MECHANISMS FOR SOLAR CELLS WITH LASER DOPED SELECTIVE EMITTER AND PLATED NI-CU METAL CONTACTS

机译：激光掺杂选择性发射极和镀镍铜金属接触的太阳能电池的失效机理

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Al-BSF solar cells with a laser doped selective emitter and plated Ni-Cu contacts are an attractive approach for industrial fabrication. Yet the contact adhesion of the plated Ni-Cu contacts due to diffusion barriers in the contact area and electrical stability against tempering induced non-ohmic Ni shunts are two main challenges for this cell concept. This work presents failure mechanisms of laser doped solar cells. Microscopic characterization analyzes process induced defects separately, which result in poor contact adhesion and non-ohmic shunting. A process route is presented, which yields in solar cells with pseudo fill factors above 80 % and a sufficient contact adhesion of 1 N/mm.

机译：具有激光掺杂的选择性发射极和镀Ni-Cu触点的Al-BSF太阳能电池是工业制造的一种有吸引力的方法。然而，由于接触区域中的扩散势垒以及抗回火引起的非欧姆性Ni分流的电稳定性，镀Ni-Cu触点的接触粘附性是该电池概念的两个主要挑战。这项工作提出了激光掺杂太阳能电池的失效机理。微观特性分别分析了工艺引起的缺陷，从而导致不良的接触粘合和非欧姆分流。提出了一种工艺路线，其在假填充因子大于80％且足够的接触粘附力为1 N / mm的太阳能电池中产生。

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《European Photovoltaic Solar Energy Conference and Exhibition》|2014年|1324-1327|共4页
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W. Hoerdt; S.Kluska; C. Geisler; S. Hopman; J. Bartsch; A. Mondon; M. Glatthaar;
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Selective Emitter; Laser Doping; Laser Chemical Processing; Plated Contacts; Ni-Cu; Peel test;

机译：选择性发射极;激光掺杂;激光化学加工;镀触点镍铜剥离测试;

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1. Copper penetration in laser-doped selective-emitter silicon solar cells with plated nickel barrier layers [J] . Shahla Flynn, Alison Lennon Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2014,第Null期

机译：镀镍阻挡层的激光掺杂选择性发射极硅太阳能电池中的铜渗透
2. Erratum: Effect of edge junction isolation on the performance of laser doped selective emitter solar cells (Solar Energy Materials & Solar Cells (2011) 95 (3557-3563)) [J] . Hallam B., Wenham S., Lee E., Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2012,第Null期

机译：勘误：边缘结隔离对激光掺杂的选择性发射极太阳能电池性能的影响（Solar Energy Materials＆Solar Cells（2011）95（3557-3563））
3. Specific Contact Resistance Measurement of Screen-Printed Ag Metal Contacts Formed on Heavily Doped Emitter Region in Multicrystalline Silicon Solar Cells [J] . P. NARAYANAN VINOD Journal of Electronic Materials . 2013,第10期

机译：多晶硅太阳能电池中重掺杂发射极区上形成的丝网印刷Ag金属触点的比接触电阻测量
4. FAILURE MECHANISMS FOR SOLAR CELLS WITH LASER DOPED SELECTIVE EMITTER AND PLATED NI-CU METAL CONTACTS [C] . W. Hoerdt, S.Kluska, C. Geisler, European Photovoltaic Solar Energy Conference and Exhibition . 2014

机译：具有激光掺杂选择发射极和镀Ni-Cu金属触点的太阳能电池的失效机制
5. Characterization of grid contacts for n-Si emitter solar cells. [D] . Duggimpudi, Kavya Sree. 2016

机译：n-Si发射极太阳能电池的栅极接触的特性。
6. Fabrication of Si heterojunction solar cells using P-doped Si nanocrystals embedded in SiNx films as emitters [O] . Ping-Jung Wu, Yu-Cian Wang, I-Chen Chen 2013

机译：使用嵌入在SiNx薄膜中的P掺杂Si纳米晶体作为发射极制造Si异质结太阳能电池
7. Base contacts and selective emitters processed by laser doping technique for p-type IBC c-Si solar cells [O] . López Gema, Ortega Pablo R., Martín Isidro, 2015

机译：p型IBC c-Si太阳能电池通过激光掺杂技术处理的基极和选择性发射极

FAILURE MECHANISMS FOR SOLAR CELLS WITH LASER DOPED SELECTIVE EMITTER AND PLATED NI-CU METAL CONTACTS

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