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looking for PhD (f/m/d) for the X-Ray Spectroscopic Characterization of Functional Interlayers in Perovskite Solar Cells Your Tasks Characterization of functional interlayers in perovskite solar cells and
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reporting about the techno-economic analysis (TEA) and life cycle analysis (LCA) of the upscaling of the manufacturing of flexible perovskite solar cells. The goal being to evaluate and stimulate
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-structured compounds were first used in solar cells in 2012 and have seen rapid increases in efficiencies to over 25%, already higher than most competing technologies. The major obstacle of perovskites is
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part of the existing research team led by Professor Trystan Watson you will explore how the next generation of printed solar cells can be taken from the printing of single layers to the integration
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broad energy range and good charge transport. These features turn them into excellent candidates for application in devices such as solar cells, light-emitting diodes, sensors, and (X-ray) photodetectors
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related disciplines Very good grades in the masters and bachelors degrees are mandatory Knowledge of semiconductor and solar cell physics is required Knowledge of solar cell characterization methods and/or
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view towards their implementation in energy-relevant technologies, such as LEDs, solar cells, batteries and fuel cells. The primary tools to this end involve the use and development of techniques
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compatible with the solar spectrum while halide perovskite are poorly stable. In chalcogenide perovskites, X is sulfur or selenium. While chalcogenide perovskites are still largely unexplored, several studies
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of semiconductor and solar cell physics is required Knowledge of solar cell characterization methods and/or drift-diffusion simulations is useful but not mandatory Our Offer: We work on highly innovative topics and
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, such as strong optical absorption over a broad energy range and favorable charge transport. These features turn them into excellent candidates for application in devices such as solar cells, light-emitting