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Time-resolved spectroelectrochemistry on 3D-mesoporous electrodes – 3D-BIOELEC
The main objective of this project concerns the development of an innovative sub-millisecond real-time spectroelectrochemical technique allowing characterization of electrodes functionalized by biomolecules. The challenge consists in the spectroscopic detection of a low amount of biomolecules with s
Geometry and optimal measure transportation – GMT
The Ricci curvature plays an important role in Geometry and has lately been linked with the Optimal transportation theory. First by G.~Perelman's proof of the Poincaré conjecture using the Ricci-flow and citing Bakry and Emery's work on ``Diffusions hypercontractives''. Secondly by a serie of pa
All IP Networks for the FutuRe Internet of Smart Ob- jects – IRIS
Smart Objects and the Internet of Things provide unparalleled means to connect the physical world with the digital world, enabling important applications such as Smart Infrastructures or Smart Cities. But existing systems are typically proprietary and tailored to one specific application, which s
Quantum Experiments with Superconducting Circuits – QuExSuperC
Superconducting quantum circuits with Josephson junctions have shown in the last decade very rich and successful quantum experiments. They clearly appeared as the most promising solid state scalable quantum system for quantum information processor. These superconducting circuits behave as artificial
Laboratory convection experiments with internal, non-contact, microwave generated heating, applied to Earth’s mantle dynamics – TERRA-MWH
The first objective of this project is to develop a novel, specific MW generator type, firmware controlled from an embedded system, and to use it for mixed convection experiments. In convection experiments, a certain number of parameters (viscosity, density) of the experimental fluids need to be mod
Real-time dynamics in strongly correlated mesoscopic systems – DYMESYS
The initial objectives of this project are firstly to build numerical theoretical tools to describe the non-equilibrium transport through a quantum dot in Kondo regime and more generally correlated mesoscopic nanostructure. Secondly, we aim at characterizing experimentally by transport probes the
Localization of the Atomic Kicked Rotor: Interplay between Disorder and Interaction – LAKRIDI
This projects aims at studying transport and localization properties in complex quantum systems. More precisely, we want to study how the interplay of disorder and interaction affects the transport properties of waves. We especially want to study how interactions between particles affect Anderson lo
New approach to aqueous biphasic catalysis through catalyst confinement in nanoscopic core-shell polymers – BIPHASNANOCAT
This project is included in the wider framework of green chemistry, meaning the search by chemists to provide society with safer chemical fabrication, using the minimum amount of ldangerous and toxic reagents, using as little energy as possible, producing the minimum possible waste… To achieve thes
OxyChalcogenides as new Thermoelectrics – OTher
About 65% of the energy used in industrial processes is lost as waste heat. Part of this waste heat could be converted into electrical power by using thermoelectric modules, which would reduce the needs for electrical power production. To do so, efficient thermoelectric materials are required, but t
Non destructive evaluation of the structures for damage prediction and optimisation of the follow-up – EvaDéOS
This project aims to provide a global methodology for the monitoring of reinforced concrete structures including the phases of evaluation, diagnosis, prognosis and decision-making. The project meets different partners specialized in all these phases around structure managers. The objective of the pr
