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sensors (IEMN, Y. COFFINIER). This thesis project concerns the development of instrumentation to detect and monitor the progression of a nuclear accident, in order to implement the most appropriate accident
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and whose detection by sensors is uncertain. In robotics, tracking is a function that contributes to the spatial understanding of the environment by the decisional layer. Similarly, multi-target
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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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indoor air quality improvement. In the last years, photoluminescent (PL) solid sensors, that can respond to the presence of water with a detectable change in their PL signal, have been considered as an
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original functions within a single system: (i) a dielectrophoretic particle filter, (ii) a pH sensor/modifier and an electrochemical oxygen filter, and (iii) a microchannel for electrophoretic separation and
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.). Therefore, to solve the portability issue, it would be necessary to replace the actual generation of rigid bulky sensors by wearable and flexible devices integrated with clothes or fixed on any arbitrary
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domain of science with new possibilities in opto-electronics due to the effects of chirality in light-matter and charge-matter interactions, with applications in OLEDs, cryptography, sensors. Related
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condense low volatility signalling compounds, thus reducing their concentration in the gas phase. How living systems respond to this process is highly uncertain, and whether sensors are adapted to detect
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methods for density and temperature in space plasmas, based on the use of electrical sensors, for use on future space missions. To carry out this space physics instrumental research project, the PhD student