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Novel chemistry for therapeutic target Isolation – CHEM2STAB
biochemists from Avignon University (UMR 5247 - Equipe Chimie Bioorganique et Systèmes Amphiphiles - CBSA) and
High Efficiency piezoelectric Alternative materials: Towards Environmentally-friendly solutions – HEcATE
Ceramic Technology Transfer Center, Institut de Chimie de la Matière Condensée de Bordeaux and l’Institut
Aluminoborate powders as rare earth-free phosphors for LED lighting – LUMINOPHOR-LED
will be facilitated by the great versatility of “chimie douce” process such as polymeric precursor methods
Development of High Capacity Li-Rich Layered oxide electrodes – DeLi-RedOx
Collège de France (FRE3677-Chimie du Solide et Energie and Laboratoire de Chimie de la Matière Condensée [...] Condensée de Paris LCMCP), Institut de Recherche de Chimie Paris (IRCP), ICG (Montpellier), IPREM (Pau) and LRCS
Switchable molecular cages as catalysts for CO2 valorisation – SWITCHABLE CAGES
The field of molecular machines clearly evolves towards the conversion of a controlled-motion into a specific function. Molecular cages have received much less attention as dynamic three-dimensional systems able to undergo large amplitude motion, despite their various functions as receptors and reactors. Stimuli-responsive cages incorporating regulation sites open the way to perform specific tasks, like controlled guest release and switchable catalysis.
Sulfoxide- a novel strategy for the asymmetric C-H bond activation – Sulf-As-CH
Since few years organic chemistry has been progressively metamorphosed by the tremendous discoveries in the C-H bond activation field. A general use of the C-H activation is yet hampered by the need for finely designed starting material bearing, often hardly transformable, coordinating groups. Besides, a chirality induction during such transformations is also extremely appealing and ambitious. The aim of the herein presented project, Sulf-As-CH, is to address both of these challenges.
Transition metal-free approach towards the control of biaryl axial chirality – ChirNoCat
The main purpose of ChirNoCat is to develop new asymmetric methodologies to control the axial chirality of biaryls in absence of transition metals.
Chemistry of Renewable Carbon for Bio-Fertilization & Plant Nutrition – C2R-BioNut
Renewable carbon chemistry for bio-fertilization and plant nutrition
Multiscale Operando Structural chAracterization of vanadium phosphate Industrial Catalysts – MOSAIC
A fundamental work is dedicated to the global and local structural order characterization of the different phases present in the industrial catalyst. We would like to elucidate the probable dynamic effects which may be present in different phases constitutive of the active catalyst and influence the reactivity of the material in the operating conditions. For that purpose, a combination of multiscale X-ray scattering experiments and solid state NMR analysis in Operando conditions is developed.