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Multi-principal-element Alloys as Solid Stores for HYdrogen – MASSHY
Multi-principal-element Alloys as Solid Stores for HYdrogen
Mixture analysis by NMR under spin diffusion conditions – MIXSPINDIFF
hired in 2009 as an associate professor in the “Chimie des Substances Naturelles (CSN)” team at ICMR,
All-Solid-state litHium sulfUr Battery with a poLymer Electrolyte – SHUTTLE
High energy density, low cost, and safe battery devices are a need to promote the energy transition. To answer this challenge, all-solid-state Li-sulfur batteries are a promising solution. However, achieving an efficient combination between a sulfur cathode and a Li anode remains a challenge. The proposed solution is to design an adapted polymer electrolyte acting as battery separator and cathode binder stable with Li metal and blocking the polysulfide redow shuttle.
Conformational design for high throughput MS/MS reading of digital polymers – shapeNread
The shapeNread project aims at optimizing the tridimensional structure of digital polymers for high throughput sequencing. Coded data will be segmented in blocks to be released in a first MS/MS step and further activated in a second MS/MS step for sequencing. Specific tags will be conceived by molecular modelling in order to distinguish these segments in terms of conformation and hence enable high throughput sequencing by using MS/MS-IMS-MS/MS.
Multimodal imaging combining Raman and mass spectrometry applied to tuberculosis – MultiRaMaS
In public health contexts, where results of conventional imaging methodologies are often disappointing, molecular multimodal imaging is within a realm of possibility. Various imaging techniques are informative for functional groups, molecular weights, or special recognition sites, but no individual technique provides optimal answers to all questions. Thus, combining information from two or more measurement platforms is highly attractive.
NAnoengineering and Therapeutic Evaluation of a novel bioorganoMetallic complex with high potent antitumor activity for Ovarian Cancer – NaTeMOc
of new molecules, based on initial work done at Chimie Paris Tech, (iii) the Preclinical Investigation
Cooperative Catalysis Between Metal Single Atoms and Nanoparticles – COMET
Single metal atoms can be present in many supported catalysts (including commercial ones) in combination with metal particles, and have certainly played a role in many catalytic processes, but they have rarely been recognized as active sites.<br />The project aims to develop a new generation of catalysts, combining in a controlled manner isolated atoms and metallic particles, in order to achieve cooperative catalysis.
Redox modulation of rhodium-catalyzed nitrene insertions into C(sp3)-H bonds – CHamRhOx
We plan to design new dirhodium(II) complexes in order to develop a more efficient and subsequently enantioselective intermolecular amination of C(sp3)-H bonds in the context of sustainable chemistry. Our approach will be based on a mechanistic study from the point of view of the design of the catalysts, and the influence of the electronic properties of the ligands on their efficiency, selectivity and stability.
Integrating microbial METAbolism into CLOUD chemistry: from" omics" to a model – METACLOUD
METACLOUD is focused on studying the ability of the cloud microbiome to metabolize single carbon (C1) compounds and integrate it into a model of atmospheric chemistry. Its originality is «omic« methods. For the moment these biological processes are not described in the models.
Transformation of raw lignocellulosic biomass into glycols and amino derivatives: catalysts design, reactivity, modeling – CatReMo
Catalyst design, reactivity, modeling