Design, fabrication and characterisation of a 24.4% efficient interdigitated back contact solar cell

钝化 材料科学 共发射极 光电子学 薄脆饼 制作 太阳能电池 能量转换效率 堆栈(抽象数据类型) 激光器 兴奋剂 激光烧蚀 纳米技术 短路 电压 光学 工程类 电气工程 图层(电子) 病理 计算机科学 程序设计语言 替代医学 物理 医学
作者
Evan Franklin,Kean Chern Fong,Keith R. McIntosh,Andreas Fell,Andrew Blakers,Teng Kho,Daniel Walter,Da Wang,Ngwe Zin,Matthew Stocks,Er‐Chien Wang,Nicholas E. Grant,Yimao Wan,Yang Yang,Xueling Zhang,Zhiqiang Feng,Pierre Verlinden
出处
期刊:Progress in Photovoltaics [Wiley]
卷期号:24 (4): 411-427 被引量:182
标识
DOI:10.1002/pip.2556
摘要

Abstract The interdigitated back contact (IBC) solar cells developed at the Australian National University have resulted in an independently confirmed (Fraunhofer Institut für Solare Energiesysteme (ISE) CalLab) designated‐area efficiency of 24.4 ± 0.7%, featuring short‐circuit current density of 41.95 mA/cm 2 , open‐circuit voltage of 703 mV and 82.7% fill factor. The cell, 2 × 2 cm 2 in area, was fabricated on a 230 µm thick 1.5 Ω cm n‐type Czochralski wafer, utilising plasma‐enhanced chemical vapour deposition (CVD) SiN x front‐surface passivation without front‐surface diffusion, rear‐side thermal oxide/low‐pressure CVD Si 3 N 4 passivation stack and evaporated aluminium contacts with a finger‐to‐finger pitch of 500 µm. This paper describes the design and fabrication of lab‐scale high‐efficiency IBC cells. Characterisation of optical and electronic properties of the best produced cell is made, with subsequent incorporation into 3D device modelling used to accurately quantify all losses. Loss analysis demonstrates that bulk and emitter recombination, bulk resistive and optical losses are dominant and suggests a clear route to efficiency values in excess of 25%. Additionally, laser processing is explored as a means to simplify the manufacture of IBC cells, with a confirmed efficiency value of 23.5% recorded for cells fabricated using damage‐free deep UV laser ablation for contact formation. Meanwhile all‐laser‐doped cells, where every doping and patterning step is performed by lasers, are demonstrated with a preliminary result of 19.1% conversion efficiency recorded. Copyright © 2014 John Wiley & Sons, Ltd.
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