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to: • The design, synthesis and characterization of finely tuned graphene quantum dots (GQDs) and/or GQDs hybrid materials as visible-light-active photocatalysts. • The selective photocatalytic oxidation of 5-HMF
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multidisciplinary team; Good written and oral communication skills in English. Desirable skills: Experience with thin-film photovoltaic materials (perovskites, colloidal quantum dots, etc.); Experience in
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mapping their spin textures at the atomic scale using quantum magnetometry techniques. The work will also involve processing, analyzing, and interpreting STM/S data, contributing to instrumental development
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variety of computational devices (e.g. CPUs and GPUs) while ensuring overall consistency and performance. - contribute to identify new CSE applications domains, such as condensed matter systems, quantum
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environment spanning various areas of quantum physics, nanophysics and photonics. This project extends the current activities of the ODIN/MIR-THz group on acoustic wave devices in the frame of the Acousto-MIR
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Polymers using a combination of quantum and force field-based simulations that will be further integrated into a force field-based Molecular Dynamics (MD) approaches to assess the permeability and
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to develop a disruptive laser technology to address realworld applications in health science and quantum technology. The basic concept relies on the exploitation of low phonon rare-earth-doped fluoride
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fields. Such interactions follow the laws of strong-field quantum electrodynamics (QED) that has emerged as a promising discovery science area with exciting opportunities. Strong-field QED effects appear