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The need for biological sensing solutions is constantly growing. Amid targeted applications, some require biosensor with high sensitivity. At CEA LETI we are running a project that aim at developing novel innovative wound dressing equipped with graphene biological sensors to track wound bacterial proliferation indicative of sepsis. The sensor is a Solution gated graphene FET-like […] >>

Improving the performance of power electronics components is a major challenge for reducing our energy consumption. Diamond appears as the ultimate candidate for power electronics. However, the small dimensions and the price of the substrates are obstacles to the use of this material. The main objective of the work is to overcome these two difficulties […] >>

The postdoctoral research project is part of a five-year ERC-funded project called CARINE (Coherent diffrAction foR a Look Inside NanostructurEs towards atomic resolution: catalysis and interfaces – https://carine-erc.eu) to develop and apply new coherent diffraction imaging (CDI) capabilities. The main objective of the project is to image nanostructures in situ during reaction and to reveal […] >>

The proposed topic is part of a CARNOT project aiming at developing a new generation of force sensors based on optomechanical transduction. These force sensors will be implemented in ultrafast AFM microscopes for imaging and force spectroscopy. They will allow to address biological and biomedical applications on sub-microsecond or even nanosecond time scales in force […] >>

In the Leti campus, the silicon technology division aims to define, develop, and process materials for advanced electrical device integration. In particular, we are studying advanced thin film deposition, on vacuum equipment and at angstrom scale. This post-doctoral position is part of a project including multiple French laboratories; the objective is to explore the applicative […] >>