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a passive backscatter communication system tailored for implantable biosensors. o RF circuit design to efficiently encode and transmit biosensing data based on OECT voltage variations. o Integration
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at the Institute of Cellular and Integrative Neurosciences (INCI, CNRS, Strasbourg), working within the "Pain and Psychopathology" team under the direction of Dr. Ipek YALCIN. Additionally, they will complete
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and algorithms for efficient deep-tissue energy transfer. Experimental Validation – Integrating and testing prototypes in realistic laboratory and clinical settings to demonstrate safe and effective
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work within the GREMAN laboratory (UMR CNRS 7347), which has strong expertise in ferroelectric oxides (from their growth to their integration into devices, including their complete characterization), in
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pulses via nonlinear interactions in liquids, gases or crystals. In parallel, THz systems have been developed using ultra-fast photoconductors (PCs), in which a semiconductor (SC) is integrated with a THz
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the perspective of cell, tissue and organ mechanics/dynamics and mechanical signal transduction. The institute operates according to a fully integrated open laboratory philosophy, with an extensive infrastructure
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, railway or nuclear industry, a failure can create a disaster and asserting structural integrity is thus highly critical. Structural Health Monitoring (SHM) consists in embedding sensors in a structure to
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also a new NbN SThM probe developed at the NEEL Institute in Grenoble, - integration of the cryo-SThM into a SEM optimised by the Institute Lumière et Matière in Lyon for in-situ cleaning of the probe