248 structures "https:" "https:" "https:" "https:" "https:" "Birmingham Newman University" research jobs at CNRS
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• Participation in micro- and nanofabrication processes using CRHEA's state-of-the-art cleanroom facilities (advanced lithography and etching techniques) • Optical and structural characterization of fabricated
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, physical chemistry, photophysics and biology, and seeks to simultaneously extract structural, dynamical and environmental information at the single-molecule scale. Within the framework of this position
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Postdoctoral researcher (M/F), synthesis of crystal phase heterostructures by Molecular Beam Epitaxy
outcomes. Molecular beam epitaxy (MBE) growth of GaAs nanowires on patterned Si/SiO₂ substrates. Structural analysis by electron microscopy (in situ TEM, electron diffraction, zone-axis indexing). Automated
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developmental) and integrative neuroscience, the laboratory is structured around four main teams: - Cognition-Behavior-Context - Social Behaviors and Collective Dynamics - Physiological and Psychosocial Stress
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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
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numerical results with observations from scanning and transmission electron microscopy provided by the partners of the ANR project IMP3D (https://anr.fr/Projet-ANR-24-CE08-3737 . - Select a discrete
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molecules using site-specific conjugation strategies. - Development of DNA origami scaffolds to spatially organize and orient proteins for structural studies by single-particle Cryo-Electron Microscopy
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chemistry synthesis (organic and coordination chemistry) - intercalation and exfoliation chemistry - synthesis in supercritical media - structural and spectroscopic characterisation - magnetic and
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and associated with biological processes such as the circadian rhythm. The aim of the project is to understand at a molecular level the impact of these modifications on the structure and dynamics
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surface-chemistry trends across selected metals and their oxides. These data will support the construction of a machine-learning force field tailored to NHC–surface systems, enabling large-scale molecular