German chemists have created the first-ever boron-carbon triple bond which opens new possibilities for molecular innovation.

By subjecting a compound through a series of carbon nanotubes, scientists can compress it to the point of breaking down and ...

Researchers observed a long-predicted fractal energy pattern in twisted carbon materials, confirming quantum theories.

An international research project, led by The University of Warwick and the University of Lille, has used nanotube compression to transform the underlying chemistry and physics of a compound, creating ...

Discover how advanced catalysts are revolutionizing petrochemicals by driving sustainable solutions for a greener future.

For decades, something strange has lurked inside the icy giants of our solar system. Uranus and Neptune, distant blue worlds ...

Even its name is somewhat misleading, as this “electricity” is not static, but is the result of charge transfer from one ...

Chinese scientists have broken the world record for light storage, holding light-based information for an impressive 4,035 ...

At its meeting of 5/6 March 2025 and upon application of the President of ETH Zurich, Professor Joël Mesot, and the President of EPFL, Professor Anna Fontcuberta i Morral, the ETH Board appointed a ...

A research team from Seoul National University College of Engineering has developed a technology to observe atomic structural changes of nanoparticles in three dimensions. Their study, which resolves ...

Scientists in Germany have achieved something never seen before: creating a stable boron-carbon triple bond. While triple ...

They applied the 2017 Nobel Prize-winning 3D structural analysis method for protein particles to solve a long-standing ...