Our research is structured around the study of geochemical transfers and fluid-mineral-living interactions within the crust-hydrosphere-atmosphere system, as well as crystal nucleation and growth and the properties of nano- and geo-materials. This interdisciplinary research is at the interface between geochemistry, mineralogy, physical chemistry, microbiology, metallogeny and materials science.
Leader: Gleb POKROVSKI
We study geochemical mechanisms and transfers over a wide range of spatial and temporal scales, from the atom to the field, in various contexts such as fluid-mineral-living interactions, nucleation and crystal growth, magmatic hydrothermal systems, and properties of nano- and geo-materials.
- Resources
- Energies
- Climate change
- Materials
The fundamental experimental and numerical models developed are used in natural contexts from the deep lithosphere to permafrost, but also in more applied fields such as mineral and energy geo-resources, mineral CO2 sequestration, corrosion in nuclear power plants, or various uses of nanomaterials.
- Experimentation, in situ measurement
- Synthesis, analysis
- Spectroscopy, modeling
- Sampling, monitoring
Scientific result
Atmospheric mercury: a decade of observations on Amsterdam Island
The recent publication of a data paper by a research team including scientists from CNRS Terre & Univers highlights a unique series of measurements of atmospheric mercury on Amsterdam Island, […]
Scientific result
What ontological plurality does to scientists scientific result?
Discover the new article in which Laure Laffont participated in L’université face au désastre écologique, Ecologie & Politique, N°67. This article illustrates the various ways in which researchers have appropriated […]
Scientific dissemination
New version of the Mercury comic book!
In 2021, Laure Laffont and Anne-Marie Cousin presented the first panels of their comic strip on mercury. In 2023, they are bringing you an improved and finalised version, which you […]
Scientific result
Questioning our knowledge of the chemistry of the early oceans
An international team involving a CNRS-INSU laboratory has determined the isotopic fractionations associated with greenalite, a mineral of the silicate class rich in ferrous iron (Fe2+), and has thus evaluated […]