在mc-Si光伏电池上应用增透涂层的缺陷带发光强度反转

H. Guthrey, S. Johnston, Fei Yan, B. Gorman, M. Al‐Jassim
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引用次数: 1

摘要

光致发光(PL)成像被广泛用于识别mc-Si光伏电池中的缺陷区域。最近对mc-Si中缺陷带发光(DBL)的PL成像研究揭示了一个令人困惑的现象。即,应用SiNx:H抗反射涂层(ARC)后,mc-Si PV材料各区域DBL强度的反转。应用ARC前DBL强度较低的区域,应用ARC后DBL强度往往较高,反之亦然。光靠PL成像无法解释这种效应。我们利用高分辨率阴极发光(CL)光谱和电子束感应电流(EBIC)技术来阐明DBL强度反转的起源。发现了多个子带隙能级,在电弧的作用下,其峰值位置和强度都发生了变化。利用这些数据,除了EBIC对比信息外,我们还提供了基于探测能级与SiNx:H ARC应用相互作用的DBL强度反转的解释。多项研究表明,这是mc-Si光伏电池的一个全球性问题。我们的研究结果有可能为mc-Si光伏生产商提供一条通过缺陷缓解策略提高效率的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Defect band luminescence intensity reversal as related to application of anti-reflection coating on mc-Si PV Cells
Photoluminescence (PL) imaging is widely used to identify defective regions within mc-Si PV cells. Recent PL imaging investigations of defect band luminescence (DBL) in mc-Si have revealed a perplexing phenomenon. Namely, the reversal of the DBL intensity in various regions of mc-Si PV material upon the application of a SiNx:H anti-reflective coating (ARC). Regions with low DBL intensity before ARC application often exhibit high DBL intensity afterwards, and the converse is also true. PL imaging alone cannot explain this effect. We have used high resolution cathodoluminescence (CL) spectroscopy and electron beam induced current (EBIC) techniques to elucidate the origin of the DBL intensity reversal. Multiple sub-bandgap energy levels were identified that change in peak position and intensity upon the application of the ARC. Using this data, in addition to EBIC contrast information, we provide an explanation for the DBL intensity reversal based on the interaction of the detected energy levels with the SiNx:H ARC application. Multiple investigations have suggested that this is a global problem for mc-Si PV cells. Our results have the potential to provide mc-Si PV producers a pathway to increased efficiencies through defect mitigation strategies.
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