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interface between ESM and the latest version of SIESTA, its validation, its benchmarking, and its exploitation in scientific applications. Work will also involve the optimization of SIESTA on the fastest and
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)]. Main Tasks and responsibilities: The candidate will optimize the transfer of nanoporous graphene synthesized on metallic susbtrates to dielectric substrates where the FETs will be fabricated. The quality
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Nanophysics group has an intense activity on the use of atomic force microscopy techniques to probe and map functionalities at the nanoscale, with a particular emphasis on piezoresponse force microscopy (PFM
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) and its TranSIESTA functionality. SIESTA is a multi-purpose first-principles method and program based on Density Functional Theory, which can describe the atomic and electronic properties of systems
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: To synthesize Pb-free halide perovskites. To synthesize, delaminate and functionalize MXenes To develop novel sustainable ink formulations based on Pb-free halide perovskites, semiconductor oxides and 2D
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advanced STEM-related (e.g.: 4D STEM) atomic scale characterization of state-of-the-art nanomaterials. The position will allow the Junior postdoc to work in a dynamic group. As part of our team, you'll have
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. Excellent communication skills in English and a strong motivation to engage in interdisciplinary, collaborative research. Summary of conditions: Full time work (37,5h/week) Contract Length: Temporary Location
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: The researcher's main role will be the development of energy autonomous neural interfaces. The researcher will be in charge of the microfabrication of energy harvesting devices based on triboelectricity (TENGs) and