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  Mainz, R.; Streicher, F.; Abou-Ras, D.; Sadewasser, S.; Klenk, R.; Lux-Steiner, M.Ch.: Combined analysis of spatially resolved electronic structure and composition on a cross-section of a thin film Cu(In_1-xGa_x)S₂ solar cell. Physica Status Solidi A 206 (2009), p. 1017-1020

10.1002/pssa.200881216

Abstract:
In this work we present a combination of two spatially resolved experimental methods to analyse correlations be- tween distributions of element concentrations and elec- tronic structure of cross sections of thin film semiconductor devices. We applied these methods to a cross section of a thin film Cu(In1–xGax)S2/CdS/ZnO solar cell. The electronic structure was analysed by measuring the work function of the cross section by Kelvin probe force microscopy. To determine the gallium concentration of the cross section of the Cu(In1–xGax)S2 layer we performed energy dispersive X-ray analysis (EDX). We were able to match the spatial coordinates of these measurements. By this we could observe a correlation between the gallium concentration of the Cu(In1–xGax)S2 layer and its work function. The EDX meas- urements show that the Cu(In1–xGax)S2 layer features a two- layer structure – one layer with a low gallium concentration (x ≈ 0) and one (at the back of the solar cell) with a high gal- lium concentration (x ≈ 1). Furthermore we discuss the influ- ence of the two-layer structure of the Cu(In1–xGax)S2 absorber layer on the photovoltaic properties of the solar cell. The spectral quantum efficiency was measured on the same sam- ple before the depth resolved data were taken. We observe an improvement of short circuit current and overall efficiency of the Cu(In1–xGax)S2/CdS/ZnO solar cell compared to a gallium- free CuInS2/CdS/ZnO solar cell.