Projects
Dynamics and decay of solitons and solitonic vortices in superfluid Fermi gases. University of Antwerp
Plasma catalysis at the nanoscale: Model development for diffusion of plasma particles in pores and study of the catalytic behaviour at the pore surface. University of Antwerp
Nanoscale characterization and property evaluation of 2D polymers synthesized at the air-water interface KU Leuven
Polymers have permeated almost every sphere of modern life, from packaging to drug delivery, from 3D printing to airplanes. They consist of molecular chains in which smaller building blocks are connected via covalent bonds. So what is the next big thing for polymers? The answer lies in the arrival of two-dimensional (2D) materials which have dominated headlines in recent years. Graphene, a single atom thick sheet of carbon isolated at the ...
Modeling of a microwave plasma reactor for energy-efficient CO2 conversion. University of Antwerp
Computer modelling and experimental validation of plasmas and plasma- surface interactions, for a deep insight in cryogenic etching (Cryoetch). University of Antwerp
Electrochemical (bio)sensor development. University of Antwerp
Silole-Based Conjugated Compounds for Optoelectronic Applications. KU Leuven
Siloles, or silacyclopentadienes, have recently attracted much interest in part due to their special low-lying lowest unoccupied molecular orbital (LUMO) levels. With high electron acceptability, fast electron mobility and high stability in air, siloles have emerged as promising electron transport materials (ETM) and potential building blocks for conjugated polymers in electroluminescent (EL) devices such as OLEDs, solar cells, etc. ...