Projects
Strong light-matter coupling for organic electronics. Hasselt University
Infrastructure project: InfraREL-PE Infrastructure for Power Electronics Reliability Vrije Universiteit Brussel
InfraREL-PE addresses this infrastructure gap, targeting drivetrain applications up to 250kW.
Power Electronics optimization for next generation Electric Vehicle Components KU Leuven
IOF Proof of concept project: Innervate 3D ultra-stretchable electronics low volume fabrication Hasselt University
Horizon 2020: Highly EFFICIENT and reliable electric drivetrains based on modular, intelligent and highly integrated wide band gap power electronics modules (OZR EU BONUS) Vrije Universiteit Brussel
Within HiEFFICIENT the project partners will work towards these goals and will develop the next generation of wide bandgap
semiconductors (WBG) in the area of smart mobility. To boost this development and the market introduction in
automotive applications, HiEFFICIENT partners have set ambitious goals to ...
Integrated Thin-film Electronics in PV Modules and batteries KU Leuven
Economical motivations and demand for environment-friendly buildings and sustainable industries, pushes businesses to invest in cost-efficient renewable power sources such as wind or solar photovoltaic (PV) technology. As a sustainable and highly appealing source of electricity, solar energy has the greatest potential to deliver long-term benefits for investors. Even though with the help of intensive research and development, solar cells have ...
Artificial Intelligence for Optimization of Power Electronics Design KU Leuven
Novel approaches in AI for efficiency and power density maximization of power converters in energy applications Artificial Intelligence (AI) is nowadays a tool that allows computers to find solutions in a better and faster way. Therefore, AI has the potential to improve the design of power converters in applications where more than one objective is required to be minimized. Especially in electric mobility, requirements are quite strict to ...
500 MHz two-channel spectrometer electronics for molecular structure analysis in fundamental and applied chemical research. Ghent University
The project foresees the replacement of the worn out and obsolete spectrometer electronics of the 500 MHz liquid-state NMR spectrometer (Nestor) that is used within the NMR Expertise center both for basic characterization and more advanced investigations within the context of molecular identity determination, conformational analysis, reactivity and interaction studies in both fundamental as applied chemical research.
Large area capacitive MEMS for flexible electronics KU Leuven
The purpose of this PhD is to design, process and characterize capacitive MEMS in the Large Area Electronics platform, capable of forming 2D sensing and actuation arrays. Key challenges to be addressed are the development of efficient capacitive devices with thin-film technologies reaching state-of-the-art signal to noise ratio at the individual element.