Scientists at ETH Zurich have developed a new approach for targeted drug delivery inside the human body. They have created tiny particles that can carry medicines directly to their intended ...

Tiny particles are opening big doors for medicine, materials science, and even environmental cleanup. Across the world, scientists are racing to understand how these microscopic swimmers behave, ...

Researchers at CU Boulder have created tiny, microorganism-inspired particles that can change their shape and self-propel, ...

Researchers have created tiny, microorganism-inspired particles that can change their shape and self-propel, much like living ...

A new University of Maryland study has revealed a coordinated dance of microscopic particles—breaking up and clustering back ...

Stewart Mallory, assistant professor of chemistry and chemical engineering at Penn State, leads a research group that studies active matter, specifically the collective behavior of self-propelled ...

New device could be used to observe structures as small as individual proteins, as well as the environment in which they move ...

A new kind of microscope is giving scientists a way to watch life inside cells with a clarity that feels almost unfair.

Brownian motion, the incessant random movement of microscopic particles driven by thermal fluctuations, plays a pivotal role in particle transport within porous media. Porous materials, characterised ...