Researchers have developed a 3D-printed |brain-like environment| where neurons grow similarly to a real brain.

For the first time, the formation of tiny, difficult-to-detect particles - known as dark excitons - can be tracked precisely in time and space. These invisible carriers of energy will play a key role ...

A new technique to trap clusters of platinum atoms in nanoscale islands could lead to more efficient catalysts for the ...

Rock and dust samples brought back from the near-Earth asteroid Bennu contain organic matter, including amino acids and all ...

Researchers have created an improved traffic light system for predicting geomagnetic storms. They are now testing how well ...

The narrow, deep holes required for one type of flash memory are made twice as fast with the right recipe, which includes a ...

Researchers found for the first time evidence that even microquasars containing a low-mass star are efficient particle ...

Novel printing technique enables instant formation of gold nanoparticles within specific regions of 3D printed objects, ...

New diffraction phenomenon of acoustic waves. A novel asymmetric diffraction has been achieved using a nano-patterned array ...

The fact that the cold, dry Mars of today had flowing rivers and lakes several billion years ago has puzzled scientists for ...

Researchers at the Institute of Physical Chemistry at the University of Freiburg and the Institut Charles Sadron at the ...

Researchers have succeeded in creating a close connection between individual cells and organic electronics. The study lays ...