Projects
Mechanisms of the delayed-oxygen uptake kinetics and reduced exercise tolerance in type 2 diabetics. Ghent University
Not Available
Raman spectroscopy of structure and kinetics in solution. University of Antwerp
Fundamental study of the growth kinetics and conformality of thermal and plasma-enhanced atomic layer deposition Ghent University
Growth kinetics of ALD and PE-ALD: this work studies fundamental questions about initial nucleation, the evolution of the surface roughness and crystallinity of the films during deposition. Conformality of ALD and PE-ALD: this study aims to characterize the conformality as a function of aspect ratio, temperature and pulse times. A second goal is to model the conformality.
Accurate models to predict the kinetics of chemical reactions that occur in extended molecular systems. Ghent University
Embodiment, bescheidnheid and moral praxis: female identity polo kinetics in relief geus-traditionalist minorities Ghent University
Coupling transport phenomena and intrinsic kinetics for free radical polymerization processes Ghent University
The aim of this project is to account for the interaction between transport phenomena and chemical reactions in free radical polymerization processes. In the framework of this project, the evolution of the particle size distribution in a suspension polymerization process and the importance of mixing effects in high-pressure olefin polymerization processes will be modeled.
Kinetic scale turbulence in collisionless magnetized plasmas: statistics, energy transfer and coherent structures KU Leuven
The term turbulence is used to describe a huge class of phenomena occurring in fluids, plasmas and other systems. Turbulence can be defined as a chaotic nonlinear process involving the transfer and reorganization of energy among different scales. Typically, turbulence is induced by a large scale driving force that provides energy to the system. Such energy is nonlinearly transferred to smaller and smaller scales, up to a point where it is ...
First principle chemical kinteics: From isolated molecules to supramolecular systems Ghent University
The focus of this project lies in the first principle determination of the chemical kinetics on a large variety of molecular systems. The project consists of both a methdological part and an application section. The applications are situated within homogeneous and haterogeneous catalysis and heterocyclic chemistry.