Videos

Imagine a world where planes aren't just checked, but they can actually tell us how they're doing! VUB researcher Zoé Jardon wants to turn this dream into reality by developing smart metal parts. Such smart components can tell by themselves if they are in good condition or not, and inform us about a problem and where it is occurring.

Imagine that, instead of emitting harmful CO2 into the atmosphere, we could recycle it and use it to power your future laptop or smartphone. That's what Kevin Van Daele is researching. He is developing new catalysts to efficiently convert CO2 into formic acid, a valuable chemical that could one day power your future electronic devices. 

"As researchers, we are not lucky enough to have the budget to crash hundreds of vehicles to test a new technology." So how can researchers test whether a new tiny semiconductor is safe to use in electric vehicles? For this, Sajib Chakraborty (VUB) developed a digital twin. A what? Watch the video to find out more.

The next generation of airplanes will be able to feel when they suffer damage, thanks to a nervous system of glass fibers. Engineer Sidney Goossens (VUB) is developing this technology to make airplanes safer & eco-friendlier. Watch the video to find out how he moves forth.

Diamonds are not only a girl's best friend (M. Monroe), but they're also an engineer's best friend (A. Mallik). Awadesh Mallik (Universiteit Hasselt - imec) explains why that is and how engineers grow diamonds in the lab. 👨🏽‍🔬 💎

Pieter Verding wants to make your life easier. His goal: to make sure you no longer have to clean your windows or glasses. How? Well, by developing self-cleaning coatings 👇 🎥

Have you ever tried to look at something, but it was too small to see? Well, scientists improving your smartphone are facing this issue on a daily basis. Jonathan Op de Beeck (imec - KU Leuven) explains how they are able to 'see' the invisible.

Last year, scientists discovered bacteria in the mud of the North Sea that can conduct electricity. Robin Bonné (Hasselt University - FWO) is investigating whether we can use these 'cable bacteria' to create biodegradable electronic wires.

Did you know that your smartphone contains, among many other precious metals, about 20 milligrams of gold? That may not seem like much, but it's 200 times as much gold as in a small piece of gold ore. Nick Gys (UAntwerpen - VITO) is working on a technique to easily recycle these precious metals from smartphones.

Is the battery of your smartphone draining quickly? Charlotte Vets wants to ensure that our smartphone battery lasts longer. How? By focusing on new, tiny components that are up to 1,000 times smaller than a hair: carbon nanotubes.

A gecko, a post-it and a tube. Let these 3 things stick into your mind for just one minute. Giorgio Russo (VIB - VUB - Vrije Universiteit Brussel) explains how a gecko could potentially help to heal wounds after surgery. 🦎👩‍⚕️

A metal tube and microscopic beads. That's basically what you need to 'dissect' the molecules in any given sample, such as blood, yoghurt or medicines. Nathaniel Berneman (VUB - Vrije Universiteit Brussel) explains how this technique works and how he wants to improve this.