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student will operate in the frame of the ANTARES project with all Researchers, Teachers-Researchers, Engineers and Technicians of the IEMN involved in the project. The Institute of Microelectronics and
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Knowledge of medical imaging Good knowledge of image processing Good knowledge of signal processing Good knowledge of AI for medical imaging Ability to use computer programming tools Ability to use word
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at the intersection of wireless systems, organic electronics, and neurotechnology. Project Goal Develop a wireless, battery-free, implantable analog interface using organic electrochemical transistors (OECTs) to sense
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controlled power electronics to optimize the overall efficiency of electromechanical conversion. Ultimately, the system will be integrated into two thermal energy conversion cycles: a thermochemical cycle and
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projects aim to gain a better understanding of how unicellular photosymbiosis works by combining subcellular microscopy approaches (3D electron microscopy). This thesis is funded by a European ERC
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from ISMO's facilities as well as support from the laboratory's technical departments (mechanical workshop, instrumentation, electronics, and computing services). All components of the experimental setup
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expertise in the fields of power supply systems, protective relays, transient simulations and power electronics. You will be based primarily at the G2Elab laboratory in Grenoble, but will make regular visits
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. Context: The design of cryogenic silicon circuits has gained much importance in recent years, in particular for applications such as silicon quantum computers that require interface electronics with ultra
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architectures (polymers, cross-linkers, cofactors) to improve electron transfer and enhance stability Characterise electrochemical systems (CV, CA, EIS, LSV) to determine sensitivity, detection limit, response
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: skills in instrumentation and experimentation; signal processing and electronics; computer science, C/C++ coding; Familiarity with system dynamics and control; Familiarity with computer graphics, 3D