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- Searching for a sustainable solution without fossil bitumen
Asphalt is the world's most important road construction material. In Germany, around 95 per cent of all road surfaces consist of this material - a mixture of aggregates and bitumen, a black petrole...
- 3D-printed sodium-ion batteries by 2025
Safer, cheaper, more sustainable and more flexible with increased performance - these are the attributes of a new generation of batteries: Solid-state batteries that rely on sodium instead of lithi...
- Making potentially dangerous bacteria visible
How can virulent bacteria be detected? The answer is: with sugar, or more precisely, with modified sugar. This is used in a new method developed by a German-Israeli team: chemist Professor Daniel B...
- A new approach to optical microscopy
For a half a millennium, people have tried to enhance human vision by technical means. While the human eye is capable of recognizing features over a wide range of size, it reaches its limits when p...
- Joint research platform for energy storage systems
The new Fraunhofer Project Center for Energy Storage and Systems ZESS was inaugurated today, February 7, 2019. Located at the Automotive Research Centre Niedersachsen (NFF) in Braunschweig, it is a...
- Diatom ooze sediments are a large marine mercury sink
Mercury has been released by humans by multiple processes such as gold and silver mining and emissions to the atmosphere by coal burning, to name the most important ones. These processes have cause...
- Nano-adapters: stimulus for single-molecule DNA sequencing
Scientists at the Braunschweig University of Technology have developed tiny adapters that allow the coupling of molecules to nanostructures and their precise positioning on the scale of a millionth...
- Measuring the Nanoworld: Rulers made of DNA
For only a few years, it has been possible to resolve biological structures down to the molecular scale with light microscopy, termed super-resolution microscopy. This has led to a number of new in... - Making nanolenses from metallic particles and DNA
Conventional lenses can only focus light to a volume on the femtoliter (10-15) range or in other words to dimensions of 1 µm3. This constrain arises from an effect called diffraction, inherent to a...