Projects
Self-assembly of organic donor-acceptor complexes within the confinement of a perovskite lattice: a fundamental study of the relation between structure and opto-electronic properties. Hasselt University
Surface chemistry and opto-electronic properties of InAs quantum dots for short-wave infrared (SWIR) photodiodes Ghent University
Imaging scenes using short-wave infrared (SWIR) light would be an enabling sensing technology if affordable SWIR imagers were available. The latest generation of printable semiconductors, such as InAs quantum dots (QDs), offer this possibility. Within this project, we will investigate the fundamentals of charge transport in InAs QD photodiodes to create the essential building block of next generation SWIR imagers.
Study on the INfluence of the sTructurE of the oRganic cation on key Properties of (quasi-)2D hybRid perovskites towards the rational design of Efficient and sTable optoElectRonics (INTERPRETER) Hasselt University
Doped CVD diamond layers: electrical and opto-electronic characterisation Hasselt University
Optical and laserspectroscopical research of organic and nanostructured materials for opto-electronic applications. University of Antwerp
Calorimetry and upscaling of organic opto-electronic materials. University of Antwerp
Strain to stabilize metal halide PERovSkites: an Integrated effort from fundamentalS to opto-elec-tronic applicaTions (PERsist). KU Leuven
The quest for the ground state of two-dimensional III-V semiconductors. University of Antwerp
QD-LASER Ghent University
The use of printable nanomaterials, so-called 'quantum dots', as a new class of semiconductors has enable large leaps forward in opto-electronics. Due to their unique combination of low production cost, ease of processing in industrially relevant platforms and unique optical properties, they find applications in mass markets such as displays and lighting. The need for a similar revolution imposes itself in growth sectors where more ...