Projects
Optimizing Operational Stability of Lead Iodide Perovskite LEDs via Amino-Rich Cations Engineering KU Leuven
In recent years, metal halide perovskites have emerged as one of the most promising materials due to their excellent optoelectronic properties, such as direct adjustable bandgap, excellent carrier transport characteristics, ease of solution processability, and high solar cell power conversion efficiency (>30%). Perovskite based light emitting devices have advantages over high luminous color purity, color-tunablity, narrow-band emissions, ...
Organic graphenes with tunable bandgaps for electronic use and energy conversion applications. KU Leuven
FWO travel credit for participating in a conference abroad at '2019 MRS Fall Meeting & Exhibit' Boston USA 01-06 / 12/2019 Hasselt University
Design and characterization of innovative 3D hybrid Si CMOS-IGZO chips KU Leuven
Innovative ASIC Gate Driver for Power Semiconductors using SiC KU Leuven
This Ph.D. research project aims to develop an innovative ASIC gate driver tailored for power semiconductors utilizing Silicon Carbide (SiC) technology in automotive applications. SiC power devices offer notable advantages in terms of efficiency, power density, and temperature capability, making them highly desirable for automotive systems. The research encompasses a comprehensive analysis of SiC device characteristics, gate drive ...
Highly integrated magnetic components in power electronics systems KU Leuven
Magnetic components are critical components in Power Electronics Applications. With the introduction of wide bandgap (WBG) devices, like Silicon Carbide and Gallium Nitride, magnetic components are getting more attention as they have been expected to be drastically downsized with the increase of high frequency and use of the WBG devices. Nevertheless, the scaling laws for magnetics do not allow such drastic downsizing with high frequencies. ...
igzO-based smaRt Interposer technologieS fOr iNtegrated circuits and pixels KU Leuven
Silicon complementary metal-oxide semiconductor (Si CMOS) technologies are ubiquitous in a plethora of products today employing a multitude of chips. The current challenges of Si chips research and applications are area, power consumption and high-voltage interposing for AR/VR, low-power IoT, high-voltage sensors and actuator interfaces such as MEMS and lab-on-chip.
ORISON’s goal is to develop a scalable toolbox on top of Si CMOS ...
Advancing photocatalytic water-splitting technology by reliable in silico design of the catalysts. University of Antwerp
Powering the Future of Electric Mobility: Next-Gen Bidirectional Electric Vehicle Chargers Using Innovative Power Electronics and Magnetic Design KU Leuven
In the context of the ongoing energy transition and the electrification of mobility, flexible energy
storage is pivotal to support the increasing share of renewable energy sources (RES) and their
intermitted, weather dependant energy production. Electric vehicles (EV) can a provide substantial
battery capacity using smart vehicle-to-grid (V2G) charging. Hereby, the EV can be charged during
the night at low ...