A novel low-cost method for fabricating bifacial solar cells

S. Saha, R. Rao, L. Mathew, M. Ainom, S. Banerjee
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引用次数: 6

Abstract

In this work we propose and demonstrate a novel and cost-effective method to fabricate bifacial cells with conventional homojunction architecture. The method combines benefits of lithography-less, self-aligned patterning during deposition of antireflective coating (ARC) and simultaneous metallization of both surfaces aided by electroplating. We have fabricated a conventional diffused n+pp+ junction bifacial solar cell on a monocrystalline silicon (c-Si) substrate using this method. Electrochemically grown nickel is used to simultaneously form front and back electrodes. The bifacial solar cell fabricated with an un-optimized process has a front and rear efficiencies (under AM1.5G one sun illumination) of 12% and 8.66%, respectively. Part of the low performance of the cell is attributed to poor quality of the passivation layer and the post deposition annealing to reduce pinholes in deposited SiNx layer to prevent parasitic plating.
一种制造双面太阳能电池的低成本新方法
在这项工作中,我们提出并展示了一种新颖且具有成本效益的方法来制造具有传统同质结结构的双面电池。该方法结合了抗反射涂层(ARC)沉积过程中无光刻、自对准图案的优点,以及在电镀的辅助下同时对两个表面进行金属化。我们用这种方法在单晶硅(c-Si)衬底上制备了传统的扩散n+pp+结双面太阳能电池。电化学生长的镍被用来同时形成前后电极。采用非优化工艺制备的双面太阳能电池(在AM1.5G /太阳光照下)的前后效率分别为12%和8.66%。电池性能低下的部分原因是钝化层质量差,沉积后退火以减少沉积的SiNx层中的针孔,以防止寄生电镀。
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