High Speed 3-Dimensional Characterisation of Graded CdSeTe/CdTe PV Devices Using a Xenon Plasma-Focused Ion beam (PFIB)

V. Kornienko, S. Robertson, R. Maclachlan, T. Shimpi, W. Sampath, K. Barth, T. Fiducia, A. Abbas, Y. Tse, J. Bowers, M. Walls
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Abstract

3D electron backscatter diffraction (3D EBSD) was carried out using a Xe-PFIB on CdTe thin film solar cells, with a graded CdSeTe (CST) layer. Devices with different ranges of CST and CdTe thickness were investigated. Grain size, texture, coincident site lattice (CSL) boundaries through the film thickness were revealed by 3D EBSD and the elemental composition of the layers was studied using energy dispersive x-ray spectroscopy (EDS). Results show a reduction of (111) texture intensity and grain size when transitioning from CdTe to the graded (CST) layer. The CST has near randomised texture with weak (001) texture. Analysis of CSL boundaries showed that the CST layer in all devices has a lower frequency of Σ3 grain boundaries relative to other types of grain boundaries with a reduction of 15-22% from the CdTe to the CST layer.
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利用氙等离子体聚焦离子束(PFIB)高速三维表征渐变CdSeTe/CdTe光伏器件
利用Xe-PFIB在CdTe薄膜太阳能电池上进行了三维电子背散射衍射(3D EBSD)。研究了不同CST和CdTe厚度范围的器件。利用三维EBSD揭示了膜层的晶粒尺寸、织构、重合点阵(CSL)边界,并用能量色散x射线能谱(EDS)研究了膜层的元素组成。结果表明,从CdTe过渡到渐变(CST)层时,(111)织构强度和晶粒尺寸减小。CST具有弱(001)纹理的近随机纹理。对CSL晶界的分析表明,与其他类型晶界相比,所有器件中的CST层的Σ3晶界频率较低,从CdTe到CST层的频率降低了15-22%。
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