Projects
Function-Oriented On-Surface Synthesis of Metallated 2D COFs. KU Leuven
Experimental and theoretical development of FO-SPR sensors for monitoring the formation of MOF recognition layers to sense VOCs KU Leuven
Volatile organic compounds (VOCs) are chemicals found in various settings, including domestic, and industrial environments, originating from natural and human-made sources. Due to their potential harm to health and the environment, detecting and monitoring VOCs is crucial. While gas chromatography with mass spectrometry is the preferred method, it is expensive and unsuitable for real-time on-site measurements. To address this issue, this ...
Electrocatalytic MOF for Nitrogen Reduction Reactions (eMOF) KU Leuven
MOF coated coupled resonators as high performance indoor air quality sensors KU Leuven
Easy-to-synthesize organic linkers for the 2D extension of MOF nanoreactors University of Antwerp
Model based synthesis of a new generation metal organic frameworks (MOFs) for catalytic applications Ghent University
Metal Organic Frameworks are a new generation of mesoporous materials with applications for energy storage, gas separation, catalysis. The are characterized by giant pores (2 - 50nm) the aim of this project is the synthesis, characterization and modeling of a new generation of MOFs with catalytic applications. Despite their exceptional properties, the applications in catalysis are still rather limited.
Model based synthesis of a new generation metal organic frameworks (MOFs) for catalytic applications Ghent University
Metal Organic Frameworks are a new generation of mesoporous materials with applications for energy storage, gas separation, catalysis. The are characterized by giant pores (2 - 50nm) the aim of this project is the synthesis, characterization and modeling of a new generation of MOFs with catalytic applications. Despite their exceptional properties, the applications in catalysis are still rather limited.
Development of alternative chromatographic strategies for enhanced AOPs analyses Ghent University
In this project, temperature-responsive liquid chromatography (TRLC) is exploited for the analysis of
micropollutants in wastewater. The work includes the synthesis and packing of TRLC columns as well
as the development of novel techniques for the analysis of water contaminants, such as the coupling
of TRLC with refractive index detector and the use of TRLC as first dimension in 2D-LC.