用定量阴极发光技术揭示多晶碲化镉薄膜的空间和光谱分辨缺陷

Thomas Bidaud, J. Moseley, M. Al-Jassim, M. Amarasinghe, W. Metzger, S. Collin
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引用次数: 2

摘要

增加晶粒尺寸是减少晶界复合和提高薄膜太阳能电池性能的潜在策略。在这里,通过改变CdC12沉积后的处理温度,制备了具有一定晶粒尺寸的CdTe薄膜。我们使用高分辨率阴极发光(CL)显微镜来详细研究重组和浅缺陷水平。在不同样品间比较室温CL图的强度。我们发现,与预期的一样,CL强度最初随着晶粒尺寸的增加而增加,但随后随着晶粒尺寸的进一步增加而趋于平稳。高原与载流子扩散长度相关的特征长度的减少相关,这是由晶界附近的CL强度曲线确定的。此外,低温CL测量显示了CdC12温度下缺陷水平的演变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatially and spectrally resolved defects in polycrystalline CdTe thin films revealed by quantitative cathodoluminescence
Increasing the grain size is a potential strategy to reduce grain-boundary recombination and improve performance of thin-film solar cells. Here, CdTe thin films with a range of grain sized were produced by varying the CdC12 post-deposition treatment temperature. We use high-resolution cathodoluminescence (CL) microscopy to study recombination and shallow defect levels in detail. Intensities from room temperature CL maps were compared across samples. We find that the CL intensity initially increases with grain size, as expected, but then plateaus as the grain size is increased further. The plateau is correlated with a decrease in the characteristic length-related to the carrier diffusion length-determined from CL intensity profiles near grain boundaries. In addition, low-temperature CL measurements demonstrate the evolution of the defect levels with CdC12 temperature.
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