Projects
Influence of the reaction conditions on organic surface modification of titania and their impact on interactions with molecules University of Antwerp
Few-body correlation effects in transition metal dichalcogenide monolayers. University of Antwerp
Stuyding local interactions of organophosphonic modified surfaces through controlled synthesis, characterization and EPR spin probing University of Antwerp
Multi-timescale atomistic modeling of plasma catalysis and plasmabased growth of carbon nanostructures. University of Antwerp
New concepts in the synthesis of interfacially polymerized composite membranes for osmotic processes KU Leuven
The aim of this project is to acquire a thorough knowledge of the mechanisms of the formation of TFC and TFN membranes via IFP.
Active iron sites in Fe-zeolites for N2O and NO abatement KU Leuven
Despite the discovery of many new materials, transition metal ion-containing zeolites remain the most solid and promising for catalyzing a huge variety of reactions in modern chemistry. In particular, they received much attention for their extremely high and stable activity for the SCR of NO and the direct decomposition of NO and N2O, next to the selective oxidation of hydrocarbons. Though they have shown promising catalysis, the identity of ...
Influencing interactions with molecules by controling surface modifications. University of Antwerp
Few-body correlation effects in transition metal dichalcogenide monolayers. University of Antwerp
A model-based approach to unravel the driving forces in attrition-enhanced deracemization processess. KU Leuven
Molecular chirality is an important geometrical property with far-reaching implications in the pharmaceutical, food and agrochemical industries. Chiral molecules can exist in two non-superimposable mirror-image forms called enantiomers, which often possess substantially different biological effects. Since most chemical synthetic processes of chiral molecules result in an equimolar mixture of both enantiomers, referred to as a racemic mixture, ...