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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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operating physics of mesoporous carbon perovskite solar cells. The project will focus on using optoelectronic perturbation techniques such as transient photovoltage decay and impedance spectroscopy to probe
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University, offers a unique opportunity to delve into the device operating physics of mesoporous carbon perovskite solar cells. The project will focus on using optoelectronic perturbation techniques such as
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Number of Opportunities Available: 1 fully funded place Supervisors: Dr. Bora Karasulu (Chemistry), Dr. Albert Bartok-Partay (Physics) Summary: Solar modules incorporating lead-halide perovskites
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time of 75% (29.85 hours) is planned for the 2-3rd year of the contract. “Gradient bandgap engineering in oxide perovskites for use in tandem solar cells” as part of the ‘FuturePV’ „Grundlagen für
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of the STRIPS Project at Swansea University, offers a unique opportunity to delve into the device operating physics of mesoporous carbon perovskite solar cells. The project will focus on using
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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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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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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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, 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