Videos

Producing renewable, low-cost energy in a robust way remains a challenge. Jose Maria Cuevas (Imec - KU Leuven - Energyville) is looking at a new sort of solar cell that might help do the trick: the *take a breath* 3 Terminal Tandem Bifacial Solar Cell 😅 Say what ⁉️ Jose breaks it down and makes it crystal clear for you in this video. 👏

Up to 25% of the cells present in lung cancer tumours are currently ignored. As such, we don't know what the role of these so-called B cells is. "It is crucial to figure that out because we cannot efficiently fight something we do not fully understand," says Pauline Bardet (VUB - VIB - FWO).

In her PhD, she wants to get to the bottom of those B cells and thus find out whether those cells are "good guys" or "bad guys".

Roughly every 5 minutes someone on this planet dies of ALS, and the sad truth is that we still do not have an effective treatment to cure this disease. The problem lies in the fact that we do not fully understand what causes ALS in the first place. In his doctorate, Jimmy Beckers is trying to solve a piece of the puzzle. He is investigating whether a malfunction in our internal cellular recycling system might be linked to ALS.

Have you ever wondered how pills are made? A powder flows through a production line, falls into a hole, and gets compressed into a pill. Easy, right? And yet a lot can go wrong, as chemical engineer Margot Coppens explains. That's why she uses computer models to virtually test the powder mixtures and anticipate possible production problems.

Potatoes are highly susceptible to diseases and pests. To better protect these crops, computer scientist Jana Wieme is deploying drones and artificial intelligence. With that extra eye, potato farmers can monitor each individual plant and thus intervene quickly when needed. In this video, she explains how it works.

Milk is a source of many delicacies, such as cheese and ice cream. Unfortunately, milk also has a smell to it... Cows produce ammonia and methane through their breath and manure. These harmful gases are mainly released when cows are in their stables. In his Ph.D., Kobe Coorevits is looking for a way to accurately and affordably monitor the emission of these gases in dairy barns.

Making fries is something we Belgians are already very good at. But we can do even better, says Wout Vierbergen (ILVO - KU Leuven). He uses technology (Hyperspectral cameras! AI !) to detect black spots under the skin of a potato. In this way, he wants to help producers detect blistered potatoes so that they are left with only the finest ones to make our fries.

Modern electrical devices, such as the smartphone or the electric cars, work with direct current (DC) while our power grid works with alternating current (AC). Therefore, you need e.g. a charger, which converts one type of current to the other. So shouldn't we switch to a DC electricity grid? In her PhD, Leonie Hallemans investigates how we can make such new DC grids as safe as our old AC grid.

Should you be worried if, for instance, your cholesterol level is above the normal value? Not necessarily. As Murih Pusparum (VITO - UHasselt) argues: test results are often compared to a standard range of normal values, while every person might have his or her own range depending on age, gender, and genetic or biological traits. That's why she is working on more personalised diagnosis.

What if we could give mining waste a second life? Mining produces a lot of waste, so-called mine tailings. These tailings still contain some leftover valuable metals, Nor Kamariah is researching new approaches to extract these remaining metals from the mining waste, while cleaning these tailings all at once. These clean tailings can then be recycled as construction materials. 

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. 

Did you know that the average lifespan of a wind turbine is 20 years? After that, unfortunately, wind turbines end up in landfills as they are built from thermosets, materials that can't be recycled (yet). "It's time to change that", says Marlies Thys. She is looking into making recyclable thermosets by using ... wood waste.