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- work environment: Research Laboratory. - main mission: The goal is to design and prototype a Reciprocating Expansion Machine with a Linear Alternator (REMLA – 200W–100Hz – 10mm stroke), coupled with
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, computer science, instrumentation, acceleration techniques, and biology techniques. These technical strengths are a major asset for the design, development, and use of the necessary instruments (accelerators and
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. • A background in bioengineering/ physics/ crystallography is desirable. • Manual skills and a keen attention to detail are essential in this work environment, including both laboratory work and
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candidate will perform experimental work related to the PUI FITInnovE project “PEPTAFLU.” This postdoctoral project aims to characterize inhibitory peptides developed through engineering using phage display
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) of the Toulouse Institute of Fluid Mechanics, as part of the ERC HYROPE project (Synergy Grant). This project is in collaboration with 3 European partners (ETHZ, NTNU, TU Darmstadt) and concerns the fundamental
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of regulation of BMP1 activity, at the molecular, cellular and tissue levels, with the goal to develop innovative therapeutic approaches to treat wound healing disorders. Background Previous work has shown
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network contracts upon local stimuli to orient fluid transport where it is needed. This enables autonomous functionalities without the need for a complex nervous system. These organisms use fluid transfer
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student will operate in the frame of the ANTARES project with all Researchers, Teachers-Researchers, Engineers and Technicians of the IEMN involved in the project. The Institute of Microelectronics and
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equipment, particularly in imaging and electron microscopy, image analysis, and bioinformatics. The team is composed of five people. The thesis will be carried out as part of a collaborative ANR project
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Offer Description This work thesis will be carried out in the Laboratory of engineering and macromolecular systems within the lipolysis and bacterial pathogenesis team directed by Stéphane Canaan