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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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light under a fixed energy budget. This acquired knowledge will then be used to explore the more complex case of quantum emitters coupled to circuits as in circuit QED or integrated photonics
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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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of the responses to cigarette smoke. The PhD candidate will also integrate all these data together with longitudinal data from cohorts in order to link cellular mechanisms to patient data. This PhD project in