Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- CNRS
- European Magnetism Association EMA
- Nature Careers
- Institut Pasteur
- Arts et Métiers Institute of Technology (ENSAM)
- Centre de Mise en Forme des Matériaux (CEMEF)
- Inria, the French national research institute for the digital sciences
- Institut de chimie des milieux et matériaux de Poitiers - Equipe SAMCat
- University of Reims Champagne-Ardenne (URCA)
-
Field
-
production of premium polymers varies greatly depending on the type of polymer. This production volume varies even more widely across industrial sectors. As a result, recycled polymers are made up of elements
-
testing, materials analysis by electron microscopy, and more. Rheology and hydration of silico-magnesia cements I. INTRODUCTION I.1 Context. Portland cement, the primary component used as a binder in
-
, symbiosis, methanogenesis, etc.). - Link events to genomic function and context: functional enrichments, proximity of mobile elements, recombination hotspots; establish predictors of genetic innovation
-
advances is a very important element in this large-scale project. Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UPR5301-ISACAL-137/Default.aspx Work Location(s) Number of offers
-
train station or by car (parking available). Public transportation costs are partially covered. The challenge is to establish a novel reconstitution method for spliceosome from human cellular extracts
-
supervision of Antoine Guichet, as part of the Polarity and Morphogenesis team, headed by Antoine Guichet at the Institut Jacques Monod. Microtubules are a central component of the cytoskeleton and play a key
-
, we will make full use of X‐ray Absorption Spectroscopy (XAS), including X‐ray Magnetic Circular Dichroism (XMCD) - an inherently element- and orbital-selective technique - alongside X‐ray diffraction
-
by N. Perret and co-supervised by L. Djakovitch. N. Perret is specialized in the development of supported metal catalysts for hydrogenation and oxidation reactions. The project BioMCat, which focuses
-
of ultrasound therapy and their control in real time. This team develops new methods for the control of ultrasonic cavitation, a phenomenon that enables the permeabilization of numerous biological membranes
-
are minimally invasive, orally delivered medical devices that traverse the gastrointestinal tract, using electronic, mechanical, or smart material elements for diagnosis, therapy, surgery, or sampling