Abstract
We report a multi-modal study of the electrical, chemical and structural properties of a kesterite thin-film solar cell by combining the spatially-resolved X-ray beam induced current and fluorescence imaging techniques for the evaluation of a fully functional device on a cross-section. The data allowed the correlation of the chemical composition, defects at interfaces and inhomogeneous deposition of the layers with the local charge-collection efficiency of the device. We support our observations with Monte Carlo simulations of high-energy X-ray interactions with the semiconductor device, and finite-volume modeling of the charge-collection efficiency.
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CITATION STYLE
Saadaldin, A., Slyamov, A. M., Stuckelberger, M. E., Jørgensen, P. S., Rein, C., Lucas, M. M., … Andreasen, J. W. (2022). Multi-modal characterization of kesterite thin-film solar cells: experimental results and numerical interpretation. Faraday Discussions, 239, 160–179. https://doi.org/10.1039/d2fd00044j
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