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Combining Magnetic Spectroscopy and Modern Multireference Methods to Understand the Properties of Bio-Inspired and Enzymatic Multicopper Systems – CUBISM
Combining Magnetic Spectroscopy and Modern Multireference Methods to Understand the Properties of Bio-Inspired and Enzymatic Multicopper Systems
Communities dynamics around Fe-oxidizing bacteria in Iron-rich microbial mats: Adjustment to environmental variations – IRONWOMAN
While the iron cycle and its interactions with other biochemical cycles are increasingly being studied, the role of iron-oxidizing bacteria (FeOB), their relationships with other microorganisms in iron-rich mats and how they respond to environmental variations have been sparsely addressed so far. The originality of our approach will be to address these questions, preserving as much as possible the complexity of iron-rich microbial mat ecosystems and the environment in which they develop.
Community of mathematics and fundamental computer science in Lyon
cofinancé entreprise. Attractivite´ . Fin 2021 Milyon a accueilli 41 post doctorants, a financé
Compaction and Assembly of metaLs by HIP an innovative Solution
4 juin 2021 par la convention attributive d’aide n° ANR-21-ESRE-0039 signée le 18 novembre 2021.
Comparative analysis of ventral sensory neuron specification mechanisms in invertebrate chordates: insights into the origin and the evolution of the vertebrate peripheral nervous system. – VentralPNS
Evolutionary origins of the vertebrate peripheral nervous system.
Complex and nonlinear fluids of light – CONFOCAL
CONFOcaL is a theoretical project aiming to explore the properties of disordered fluids of light. Fluids of light constitute novel and flexible systems of effectively interacting photons that exhibit many fascinating properties of quantum gases. This topic falls in line with a strong scientific activity in the field of cold atomic gases, but it addresses these questions from the original perspective of optics.
Computation of Resonant Inelastic X-ray Scattering in the condensed phase across the whole periodic table – CompRIXS
This project aims to devise and apply innovative theoretical approaches to simulate Resonant Inelastic X-ray Scattering (RIXS) spectra, whereby we accurately take into account relativistic effects (especially spin-orbit coupling) while at the same time treating electron correlation, relaxation, and environment effects.
Computational analysis of the response of immune repertoires to viruses – RESP-REP
RESP-REP aims to turn the power of high-throughput immune repertoire sequencing into useful medical diagnosis tools, by predicting the immune function and specificity of lymphocyte receptors sequences.
Computational design of molecular catalysts for hydrogen production – CODEC
This approach combining experimental and theoretical should lead to a real synergy which will help experimenters to pilot, rationalize and improve the design of catalysts, and theorists to validate their calculated structures and their reaction mechanisms.
Confined Lewis Acid/Base – Co-LAB
Use of endohedral functionalized molecular cavity to create frustrated Lewis pairs