Thesis offer – PIMM
Cyrille Sollogoub, member of the DIM steering committee, and Sébastien Roland, leader of the CoMiX project funded by MaTerRE, are looking for a physicist or physico-chemist candidate [...]
Advanced characterization techniques
Many advanced characterization platforms already exist in Île-de-France. One of MaTerRE’s challenges is to participate in the optimization, improvement and development of techniques for advanced characterization or coupling techniques, in order to optimize speed and spatial resolution. This will include accelerating the study of solids at different scales, understanding the formation of materials and their functioning and behaviour under real conditions, visualization and quantification of defects resulting from material degradation. The aim of this axis is to create a database of data and knowledge on advanced characterization by combining DIM research with that of other laboratories.
Axis managers
Articles et publications
Workshop Emerging operando strategies for the electrochemical, photochemical and photoelectrochemical conversion of small molecules
Abstracts submission is now open until April 17th and registrations until June 7th for our next Workshop dedicated to operando methods for small molecule conversion! The workshop [...]
June 20th 2024
Postdoctorate – ICMPE
The ICMPE is looking for a post-doc in polymer chemistry and/or MOFs to work on the PuriPFAS project, funded by the DIM MaTerRE!
Technology Transfer
Submit your technology transfert project all year round! The call for proposals Technology Transfer on the run of the DIM MaTerRE is intended for any project with [...]
Applications open
On the run
Projets
DynaStar
Dynamic Treatment of Halide Perovskite Films upon their Synthesis for Efficient and Stable Solar Cells
FAST-RAMAN
Accelerated in-situ characterization of advanced materials for energy storage and transport by Raman spectroscopy
HRMS4MAT
Combining chromatographic and high-resolution mass spectrometry methods to characterize new materials and resources or recover waste materials
Probing solid/electrolyte interfaces
Probing solid/electrolyte interfaces with single-charge nano-fluidics
Recycling 2.0
Solid-state recycling of aluminum alloys, an innovative process for enhanced sustainability
REMEMBER
SmaRt mEchanofluorochromic Microfluidics: an advanced tool to detect mEchanical stress on Microalgae cells for an efficient Bio-Energy Recovery
