Its motto is Mens agitat molem (The mind brings matter into motion). The university was the second of its kind in the Netherlands, only Delft University of Technology existed previously. Until mid-1980 it was known as the Technische Hogeschool Eindhoven (abbr. THE). In 2011 QS World University Rankings placed Eindhoven at 146th internationally, but 61st globally for Engineering & IT. Furthermore, in 2011 Academic Ranking of World Universities (ARWU) rankings, TU/e was placed at the 52-75 bucket internationally in Engineering/Technology and Computer Science (ENG) category and at 34th place internationally in the Computer Science subject field.
Eindhoven University research articles from Innovation Toronto
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To produce medicine sustainably and cheaply, anywhere you want. Whether in the middle of the jungle or even on Mars. A ‘mini-factory’ whereby sunlight can be captured to make chemical products. Inspired by the art of nature where leaves are able to collect enough sunlight to produce food, chemical engineers at Eindhoven University of Technology (TU/e) have presented such a scenario. They describe their prototype reactor – consciously shaped as a leaf –in today’s journal Angewandte Chemie.
Using sunlight to make chemical products has long been a dream of many a chemical engineer. The problem is that the available sunlight generates too little energy to kick off reactions. However, nature is able to do this. Antenna molecules in leaves capture energy from sunlight and collect it in the reaction centers of the leaf where enough solar energy is present for the chemical reactions that give the plant its food (photosynthesis).
The researchers came across relatively new materials, known as luminescent solar concentrators (LSC’s), which are able to capture sunlight in a similar way. Special light-sensitive molecules in these materials capture a large amount of the incoming light that they then convert into a specific color that is conducted to the edges via light conductivity. These LSC’s are often used in practice in combination with solar cells to boost the yield.
The researchers, led by Dr. Timothy Noël, combined the idea of an LSC with their knowledge of microchannels, incorporating very thin channels in a silicon rubber LSC through which a liquid can be pumped. In this way they were able to bring the incoming sunlight into contact with the molecules in the liquid with high enough intensity to generate chemical reactions.
While the reaction they chose serves as an initial example, the results surpassed all their expectations, and not only in the lab. “Even an experiment on a cloudy day demonstrated that the chemical production was 40 percent higher than in a similar experiment without LSC material”, says research leader Noël. “We still see plenty of possibilities for improvement. We now have a powerful tool at our disposal that enables the sustainable, sunlight-based production of valuable chemical products like drugs or crop protection agents.”
Paracetamol on Mars
For the production of drugs there is certainly a lot of potential. The chemical reactions for producing drugs currently require toxic chemicals and a lot of energy in the form of fossil fuels. By using visible light the same reactions become sustainable, cheap and, in theory, countless times faster. But Noël believes it should not have to stop there. “Using a reactor like this means you can make drugs anywhere, in principle, whether malaria drugs in the jungle or paracetamol on Mars. All you need is sunlight and this mini-factory.”
Learn more: Artificial leaf as mini-factory for medicine