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high strain RAte, TEmperature and Small-scale mechanical properties of materials – RATES
The RATES project aims to develop a unique expertise on a national scale (and almost unique in the world) on the measurement/modeling of the behavior of materials at the scale of a few microns (scale of surface layers, coatings, areas affected by new manufacturing processes) at very high strain rates and very high temperatures.
eXplaining Competency and Autonomy development in Learning Environments – xCALE
Our main objective in this project is to investigate how to support successfully self-regulated learning at a large scale, with an approach that aims to estimate online acquired skills levels and metacognitive levels about students to provide appropriate interventions.
e-Substrates for molecular imaging in cells – NIS
Optimisation and developments of planar and micro-/nano- structured multi-dielectric stacks to i) improve the precision of single-molecule microscopy and the sensitivity of correlation imaging to follow the dynamics of molecular events occurring at the cell membrane, such as viral budding, and ii) perform fast and sensitive imaging with sub-wavelength spatial resolution.
e-COL+, the enhancement of natural history data in France
de pointe en 3D. Débuté à la fin de 2021, e-COL+ a travaillé en 2022 à l’organisation du
demographics of planets close to their birth place & their occurrence in the disk and the bar of our Galaxy. – COLD-WORLDS
Cold Worlds uses the gravitational microlensing technique to explore a unique niche: cold planets with masses as small as the Earth orbiting all types of stars (even stellar remnants), old planets in large orbits, free planets (i.e. not bound to a star) and even exolunes orbiting extra-solar planets.
coALescence and biofiLm in thIn GAp phoTObioreactoR – ALLIGATOR
The ALLIGATOR project aims at developping a new type of intensified photobioreactor via an increase of the volume productivity.<br />The proposed configuration consists in a thin-gap bubble column expected to enhance gas-liquid mass transfer and to favor mixing, while allowing high biomass concentration and ensuring light availability on the whole reactor thickness.
cOnception of bioresorbable self-rolled Patchs for the local trEatment of inflammatioN induced in the coloN after irradiation – OPENN
Development of an innovative medical device dedicated to the colon which could be easily implanted by surgeons using colonoscopy.
cGLR-STING mediated antiviral immunity in drosophila – ROXANNE2
In the course of the ANR-funded ROXANNE (2017-2021) project, we have characterized a novel innate immunity
Yarrowia lipolytica oleochemicals based on odd chain fatty acids – YaLiOl
One of the promising alternatives that can substitute fossil resources is the use of microbial oils. The engineering of fatty acids with high added value, fermentation on a cheap substrate, and the transformation of oils into products of higher added value are among the strategies that can reduce their production costs. In this context, the YaLiOl project aims to provide oleochemicals based on odd-chain fatty acids from Yarrowia lipolytica.
Xenotime as a material for actinides specific storage – x-mas
The main objectives of the XMAS project were reached. We mounted and fully characterized new compounds belonging the xenotime family. Then, we studied their thermal stability, resistance to irradiation and also their chemical durability (thermodynamics and kinetics). Therefore, we added a new credible candidate for the management of radioactive wastes.