Traditional chemistry textbooks present a tidy picture: Atoms in molecules occupy fixed positions, connected by rigid rods. A ...

Atoms measure roughly 0.1 nanometers across, a scale so small that scientists spent more than six decades developing ...

Probing the vibration of atoms provides detailed information on local structure and bonding that define material properties.

Explore the science behind the cutting process in this video, delving into what bonds scissors can break at a molecular level. Discover the various types of bonds affected and the mechanics behind the ...

Home > Press release: The quantum trembling: Why there are no ...

Reinhard Dörner explains: "In the quantum world, atomic nuclei are not tiny spheres that remain fixed in place. They are more like vibrating clouds. Even if we cool a molecule down to absolute zero, ...

The total energy of the ball consists of its potential energy (related to position) plus its kinetic energy (related to motion). To zero out both components, you would have to give a precise value to ...

New first-principles simulations reveal how metallic surfaces reshape nanoscale vibrational imaging, advancing the interpretation of tip-enhanced Raman spectroscopy.

Scientists in Germany have shed light on how nanoscale imaging techniques like tip-enhanced Raman ...

Researchers have demonstrated that a nanoparticle of 7,000 sodium atoms can act as a wave, creating a record-setting superposition.

A long-standing chemistry challenge has been solved with the synthesis of a five-atom silicon aromatic ring. The breakthrough validates decades of theory and points toward new industrially relevant ...

NASA’s Curiosity rover has uncovered some of the largest organic molecules ever detected on Mars, and scientists say ordinary geology may not fully explain them.