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(study conducted by our collaborators in Marseille). The postdoctoral researcher will participate in the design, execution, and analysis of behavioral experiments in humans. Furthermore, they will develop
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developing more sustainable catalytic approaches. Special attention will be given to overcoming identified limitations through the design of new catalytic systems based on abundant and non-critical transition
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research centre dedicated to understanding normal and pathological brain function and developing new diagnostic and therapeutic approaches. Website: https://neurosciences.univ-grenoble-alpes.fr You will be
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Development: Design and maintain open numerical simulation codes to model these systems. - Scientific Collaboration: Collaborate with team members on this project and related research initiatives
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industrial partners. - Construction of electrochemical cells incorporating specially designed magnetic field sources, including quantitative measurement of local magnetic fields. - Implementation of tools
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. Fluorescence lifetime is a powerful probe of molecular interactions, chemical environment and local medium properties, both in living cells and in nanostructures or functional materials. The project therefore
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. These treatments will be applied either chemically and/or physically (plasma treatment) and either at the roving level (impregnation line) or at the fabric level (scarfing). Where to apply Website https://www.imt
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devices are designed to operate at specific near-infrared wavelengths while remaining minimally perturbative across the rest of the optical spectrum. A key scientific challenge of the project is to achieve
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, comparing them with experimental data. - Contribute to the design of future experiments to improve laser guiding. Laser wakefield acceleration (LWFA) is capable of generating accelerating fields three orders
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to multiple Bruker mass spectrometry platforms and regular interaction with Bruker proteomics experts and R&D teams. You will therefore gain experience at the interface of academia and industry-driven