Sort by
Refine Your Search
-
Country
-
Employer
-
Field
-
Your Job: As PhD student you achieve fascinating insight into catalyst interfaces with the following tasks: Synthesis of model catalyst interfaces Participation in neutron scattering experiments at neutron research facilities (national and international) Physicochemical characterization of...
-
of regenerable porous mineral adsorbents to trap organic pollutants present in water. This will enable us to validate a depollution method, a crucial step prior to any industrialization of the technology. At
-
components from the water cycle such that polluted water can be safely reused. The application of membrane adsorbers is sustainable and contributes to a circular economy with a focus on recovery and reuse
-
focuses on the development of innovative adsorbents tailored for gas mixture separation, particularly targeting direct air capture (DAC). In response to escalating environmental concerns and the imperative
-
the properties of smectite, a swelling clay mineral that form the core of many of the fault zones and that is able to adsorb significant amounts of water in-between nanometric interlayers. Despite their potential
-
of these newly synthesized porous materials to adsorb gases (e.g., CO2 and CH4 ) or eliminate pollutants. Our Group's research interests are focused on controlling the assembly -Supramolecular Chemistry- of
-
Laboratoire Interface Confinement Matériaux et Nanostructures (ICMN) UMR 7374 Université Orléans CNRS | Orleans, Centre | France | 3 months ago
means of structuring (electron beam interaction with precursors adsorbed on the surface of a graphene plane) and as an in situ atomic-scale characterization method, allowing the study of the physical
-
to adsorbates, or during a reaction, obtaining unique insight into the elusive dynamics of a working catalysts. X-ray photoelectron spectroscopy (NAP-XPS) complements microscopy with information on the chemical
-
the complete chain from materials properties to process design and evaluation. More information on the project can be found here: This specific project (DC7) addresses membrane adsorbers, which have small
-
), nanoparticles adsorb proteins, resulting in the formation of a “biomolecular corona”. This corona modulates downstream biological responses, including recognition by immune cells. Resolving the complexity