Archive
13 April 2018
NWO grant of €17 million for the development of electron microscopy in the Netherlands
The Netherlands Organisation for Scientific Research (NWO) has awarded a grant of more than 17 million euros for the further development of the Netherlands Electron Microscopy Infrastructure (NEMI). The network consists of five university medical centres and eight universities, with Utrecht as the coordinating university. The grant will enable the scientists to combine various technologies in the field of electron microscopy and as a result to learn more about the composition and coherence of the biological and material micro-world.
28 March 2018
Majorana trilogy completed
Since the breakthrough discovery of the Majorana particle in 2012 in Delft, researchers faced great challenges. An international team of researchers from the Netherlands (QuTech, Microsoft and Eindhoven University of Technology) and United States (JQI Maryland, UC Santa Barbara) joined forces to understand the next steps required to improve the experiments. Now, the scientists provide a complete toolbox for the final proof of Majorana existence, paving the way towards Majorana quantum bits. They publish their work in Nature.
22 March 2018
Potassium gives new generation perovskite-based solar cells an efficiency boost
A simple potassium solution could boost the efficiency of next-generation solar cells, by enabling them to convert more sunlight into electricity.
22 March 2018
2018 Stockholm Water Prize for TU Delft biotech pioneer Mark van Loosdrecht
Professors Mark van Loosdrecht (Delft University of Technology) and Bruce Rittmann (Arizona State University) are named the 2018 Stockholm Water Prize Laureates for revolutionizing water and wastewater treatment. By developing microbiological processes in wastewater treatment, they have demonstrated the possibilities to cut costs, reduce energy consumption and even recover chemicals and nutrients for recycling. Their pioneering research and innovations have led to a new generation of energy-efficient water treatment processes that can effectively extract nutrients and other chemicals – both valuable and harmful - from wastewater.
21 March 2018
Mystery of superior Leeuwenhoek microscope solved after 350 years
Researchers from TU Delft and Rijksmuseum Boerhaave have solved an age-old mystery surrounding Antonie van Leeuwenhoek’s microscopes.
19 March 2018
Challenging the physical limits of a computation
Researchers from Delft University of Technology, in collaboration with the University of Zaragoza, have now erased and stored one bit of information encoded in a quantum nanomagnet while measuring the amount of energy dissipated in the process.
02 March 2018
Wind energy: driving down costs
Despite its recent growth, there’s still a lot of room for cost reductions in wind energy. That’s the view given by prof.dr. Simon Watson in his inaugural lecture at TU Delft on Friday March 2nd.
23 February 2018
Marnix Wagemaker receives Vici for battery research
Dr. ir. Marnix Wagemaker will receive a Vici grant from NWO. Wagemaker is getting this grant, which amounts to 1.5 million euros, to investigate the inner workings of batteries. Among other things, the researcher aims to find out why the storage capacity achieved by the current generation of batteries is lagging behind that which should theoretically be feasible. An additional 250.000 euros of in-kind contributions will be provided by companies that are involved in the research.
22 February 2018
Loops, loops, and more loops: This is how your DNA gets organised
Researchers from the Kavli Institute of Delft University and EMBL Heidelberg now managed for the first time to isolate and film and witnessed—in real time—how a single protein complex called condensin reels in DNA to extrude a loop.
15 February 2018
Programming on a silicon quantum chip
Quantum technology makes a great leap forward. While scientists can control a few qubits with great reliability, it doesn’t yet look like a real computer. Useful quantum chips require programmability: the ability to perform an arbitrary set of operations. Scientists from QuTech in Delft have now realised a programmable two-qubit quantum processor in silicon successfully implementing two quantum algorithms. They have published their work in the magazine Nature.