Take a moment to look at the screen you are reading this on. Whether it is a phone or a monitor, you are staring through a ...

The ultrafast placement of an electron in a polar liquid generates collective molecular vibrations in a spherical nano-volume. The vibrations change the diameter of this sphere periodically for more ...

A newly designed optical centrifuge allows scientists to control molecular rotation inside superfluid helium nano-droplets.

Controlling light with light is a long-sought goal for computing and communication technologies. Achieving this capability ...

The separation of liquids from each other is such a common occurrence that there is an idiom about oil and water not mixing. It is more surprising when a substance that is dissolved in water ...

At temperatures above absolute zero, molecules in any substance move constantly in a random manner. Now, researchers have developed a way to capture the energy from this motion of liquid molecules and ...

Engineers discover unusual properties in magnetized colloids that surprisingly adhere to the physics described by Kelvin's equation, which models the thermodynamics of molecular systems. Small spheres ...

And even though liquids easily change shape, they do resist this change due to the friction between the liquid molecules as they try to move past each other. This friction is called viscosity. Liquids ...

Combining AI with the latest computational methods for materials characterization, the team screened 160 billion organic molecules for suitability as liquid hydrogen carriers. In a computational study ...

Note: This video is designed to help the teacher better understand the lesson and is NOT intended to be shown to students. It includes observations and conclusions that students are meant to make on ...

Fig. 1. (a) Localized electron in a polar liquid. The scheme shows the probability density of a localized electron (contour) in an environment of solvent molecules with an electric dipole moment. (b) ...