Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
maintaining national networks of geophysical instruments, and by operating a data center. The thesis will be conducted within the Waves and Structure Team, under the supervision of Nikolai Shapiro and Laurent
-
(scRNA-seq) data, and structural data from cnidarians, and we will develop new algorithms to analyze the evolutionary history of muscle components. You will study the evolution of muscle components during
-
scaled up to industrial production. - Development of purification and separation methods - Structural and textural characterization of porous materials - Performance measurements in gas separation tests
-
involved in all stages of the project. Initially, part of the work will be dedicated to the molecular modelling of the different parts of the proposed molecules and of the structures as a whole. These
-
compounds. Intermetallic catalysts stand out for their exceptional stability and diverse atomic and electronic structures. This versatility allows them to perform efficiently under harsh conditions, offering
-
systems, as these interfaces can strongly influence CO₂ activation and methanol selectivity. However, the atomic-scale structure of these interfaces and the mechanisms governing their catalytic activity
-
on surface chemistry and catalysis, with a focus on understanding how halogenation (fluorine and chlorine) and thermal treatments can tailor the electronic and structural properties of NDs. The postdoc will
-
between chemistry and biochemistry. It is structured around two parallel PhD projects: one in chemistry (the position offered) and one in biochemistry, supervised by partner research team. This organization
-
antibiotic resistance. Until now, cytochrome bd structures from from four different species (E. Coli, Mycobacterium smegmatis, Mycobacterium tuberculosis et Corynebacterium glutamicum) are available. The first
-
PhD position: Nanoengineering refractory compositionally complex alloys for extreme conditions (M/F)
microscopy (SEM) experiments will be used to identify deformation mechanisms and establish structure–property relationships. At the University of Arizona (U of A), state-of-the-art nanoscale characterization