369 web-development-"https:" "https:" "https:" "Newcastle University" positions at CNRS
Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
interest during the last decades. A range of devices and methods have been developed to measure the rheological interface properties, such as Langmuir troughs, various rheometers and oscillating drop
-
into key intermediates such as FDCA and DFF. And to a lesser extent to: • The development of hybrid photo–bio catalytic systems • The study of structure–activity relationships and system integration
-
and optimize their properties for neuromorphic computing through combined electrical and MOKE measurements, and train them to achieve artificial intelligence tasks. - Micromagnetic simulations - machine
-
Fisheries Fund). This project aims to develop solutions adapted to Caribbean artisanal fisheries to limit the accidental capture of sea turtles through the use of acoustic deterrent systems (ADDs
-
Team (CDT), and possibly to the Bordeaux University Campus for collaboration with the Exa-SoFT research and software development teams. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre
-
pathogens develop and interact with their host, in order to identify new potential targets for therapeutics. The institute is part of a campus that has state of the art facilities including microscopy, flow
-
world of research and development and for the general public. Possible extension of the contract for an additional 12 months. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UPR2940-ELOBER-148
-
are (i) to develop new bio-based synthons/monomers (ii), to provide pi-conjugated polymers and copolymers for (iii) organic photovoltaic devices and (iv) to achieve significant progress
-
. The overarching aim is to reveal how intracellular trafficking pathways are constructed, adapted, and regulated, while running in parallel with ongoing efforts aimed at developing therapeutic strategies to control
-
), which specializes in surface chemistry and molecular adhesion, is collaborating with the NanoStructured Materials for Photonics (MNP) team of the Lumière Matière Institute (ILM) to develop a new