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to the development of technologies for converting solar energy into hydrogen, a potential fuel for fuel cell vehicles. This involves exploring the production of photoelectrodes formed by np heterojunctions composed
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the key optoelectronic performance and stability parameters at the junction between functional materials. We will then integrate the optimized interface systems into next-gen thin-film solar cell
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, funded by SATT Paris-Saclay, which aims to design thin-film solar cells for autonomous systems. The maturation engineer will manufacture a prototype photovoltaic converter adapted to the planned system
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that combine gas sorption with an characterization technique dedicated to thin films and stacks available at the IEM, such as spectroscopic ellipsometry and microgravimetry by quartz crystal. The mass uptake
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of crystalline structures present at metal oxide heterointerfaces with copper, indium, gallium and selenium (CIGS) thin-film solar cells. Heterointerfaces play a crucial role in determining the performance