Content by Vienna University of Technology
With a duration of less than 500 picoseconds, these pulses can be used in materials analysis or making chemical reactions visible
| 3 min read
The carbon material graphene has excellent electronic properties
| 3 min read
Is the miniaturization of electronics reaching its limits because smaller structures lead to more errors
| 3 min read
Scientists succeed in linking microscopic and macroscopic approaches—and thus solve an old puzzle
| 3 min read
With an elephant-friendly alternative to ivory developed by TU Wien and Cubicure, old artefacts can be restored with high precision
| 3 min read
When T cells of our immune system become active, tiny forces play an important role; it is now possible to observe these forces directly using microscopy methods
| 2 min read
For the first time, complex computer simulations have become so powerful that wear and friction of real materials can be simulated on an atomic scale
| 3 min read
It was predicted 30 years ago, now the effect has been measured for the first time by scientists at TU Wien (Vienna): the neutron spin exhibits inertial effects
| 3 min read
Researchers had been looking for something completely different, but they found a previously unknown quasi-particle: A bound state of two electrons, two holes, and light
| 3 min read
With a new process developed at TU Wien (Vienna), living cells can be integrated into fine structures created in a 3D printer—extremely fast and with very high resolution
| 3 min read
When bodies of water become polluted, it is important to find the cause as quickly and as economically as possible
| 2 min read
S-PPV polymers are suitable for use in a wide range of applications, from solar cells to medicine
| 2 min read
Using electron microscopes, it is possible to image individual atoms
| 3 min read
Scientists from Austria, Finland, and Hungary are using laser scanners to study the day-night rhythm of trees. As it turns out, trees go to sleep too
| 2 min read
Page 1 of 1 - 14 Total Items