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Chemistry triggerred by high-energy photons – HighEneCh
The HighEneCh ANR project aims to initiate and organize collaborative work between specialists of electron spectroscopy and instrumentation at large-scale facilities (SOLEIL, UPMC – LCP-MR), radiation chemistry (CEA - NIMBE), microfluidic systems (CEA – NIMBE) and ab initio molecular dynamics simulations (UPMC - IMPMC), with the goal of extending the boundaries of fundamental knowledge of the different mechanisms involved in the chemistry in aqueous environments triggered by high-energy photons.
Chinese Immigrants in Paris Region – ChIPRe
Chinese Immigrants in the Paris Region (ChIPRe)
Chiral Cyclic Alkyl Amino Carbenes in Asymmetric Catalysis – ChiCAAC
The CiCAAC project involves the development of a new class of chiral carbenic ligands and their associated complexes for asymmetric catalysis.
Chiral Lewis Bases – Pivotal Species for Asymmetric FLP- and Lewis Acid-Catalysis – CLABcat
As a possible alternative to transition metals as catalysts, chiral frustrated Lewis pairs and chiral strong Lewis acids, both non-metallic, are struggling to develop their full potential due to the hitherto crucial need for chiral boron-based strong Lewis acids, which are difficult to access and handle. CLABcat proposes 2 approaches to overcome this hurdle.
Chirped Pulse And Resonator In one Spectrometer: A novel combined molecular jet chirped pulse/cavity Fourier Transform MicroWave spectrometer for fast scan, high-resolution, and chiral discrimination – PARIS-FTMW
The chirped Pulse And Resonator In one Spectrometer (PARIS) applies an innovative and resource-efficient approach: Using a smart design, most electronic components are used in a dual-purpose spectrometer while almost all vacuum equipment are shared. Therefore, PARIS is built at much lower costs than two individual spectrometers and exceeds the advantages of both techniques individually: Rapid broadband capabilities, intensity reliability, as well as unrivalled resolving power and sensitivity.
Chondrite Recipe from Accretion Disk modeling and Laboratory Experiments – CRADLE
CRADLE (Chondrite Recipe from Accretion Disk modeling and Laboratory Experiments) consists in an original approach associating the development of numerical simulations modeling the physical, chemical and isotopic evolution of the protosolar disk with new observations of the isotopic compositions of primitive meteorites. These observations give access to the irradiation intensity, to the ages of the first solids formed in the disk and to their residence time in the gas.
Chromatin remodeling in regulation of chromosomal Crossing-Over and seed production – ChromCO
Crossing-Over (CO) during meiosis is a fundamental process ensuring sexual transmission of genetic material to next generation and meanwhile generating diversity within species by creating new chromosome/allele combinations. Understanding of the mechanisms that regulate CO frequency has great interest in basic research as well as in application in breeding.
Citizen diagnosis of the sound environment of Rezé – Sonorezé II
SonoRezé II: Citizen diagnosis of sound environments
Clermont Auvergne Projet Graduate School
prise en compte des dépenses qui a débuté le 01/06/2021 pour une durée de réalisation de 96 mois.
Clermont-Ferrand centre for research on volcanism
ont été financés. Pendant la crise sanitaire de 2021, les actions du LabEx ont été maintenues autant