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Super-resolution imaging of bacterial division – DIVinHD
Using complementary cellular and structural biology approaches, the DIVinHD project has provided information that allowed to better understand how, at the molecular scale, the assembly and activity of the cell wall synthesis machineries contribute to cell morphogenesis and division in the human pathogen Streptococcus pneumoniae. These studies have thus provided new and necessary knowledge for the discovery of new antibiotics.
Superconducting Highly efficient And power Dense mOtor for aeronautiCs – SHADOC
led to a decrease in emissions in 2020, those in 2021 nearly returned to pre-crisis levels. The transport
Superconducting KTaO3 2DEGs – SURIKAT
The first months of 2021 have seen the discovery of a new family of superconducting two-dimensional electron
Supply chain design with an environmental performance-sensitive demand – CONCLuDE
The aim of this project is to revisit Supply Chain (SC) design models, taking into account customers' sensitivity to environmental performance.
Surface & Interface Science & Engineering
à l’extérieur est bien implantée. Les promotions 2021-2022 des trois parcours de Master ont intégré 88 [...] est co-mené entre l’Enise et l’EMSE. La promotion 2021-2022 du parcours « Ingénierie des Surfaces » en
Surface acoustic wave micro-sensors based on ALuminium nitride/Sapphire Structures for high-temperature Applications – SALSA
Surface Acoustic Wave micro-sensors based on ALuminium nitride/Sapphire Structures for high temperature Applications
Surface and volume modulation of fast deforming cells and organelles – SurVol
Cells are often described as almost spherical objects. However, the dense environment of the tissues keeps them away from this simple shape. Cells can undergo rapid deformation as they migrate through dense tissue and as they move through blood capillaries. In this project, we propose to study the large deformations of cells, the associated responses and their importance for the migration of immune cells.
Surface structuration for high mobility Silicon Carbide MOSFETs – riseMOS
The objective of the RiseMOS project is to demonstrate the possibility of improving the performances of power electronic devices by structuring the silicon carbide surface with a network of large steps and terraces.
Sustainability and Spatiality in Co-Workers' Mobility Practices – COWORKWORLDS
The aim of COWORKWORLDS is to question the supposedly beneficial, though unproven, effects of coworking in terms of sustainable mobility. In this project, we adopt a broad definition of mobility and sustainability. Mobility is envisaged as spatial mobility (daily mobility, long journeys, residential mobility…), but also as social mobility (professional mobility…). The three dimensions of sustainability are taken into account : environnemental, but also economic and social.
Sustainable Process Design for Catalytic Polymerization to In-Chain Functionalized Polyethylenes – SUPRCAT
the processing and materials properties (Science 2021, 374, 604). Gas phase polymerization can be considered