The precise control of tiny droplets on surfaces is essential for advanced manufacturing, pharmaceuticals, and next‐generation lab‐on‐a‐chip diagnostics. However, once droplet volume reaches pico- and ...

Researchers have found that attractive and repulsive interactions between particles are both essential to form structural order that controls the dynamics of glass-forming liquids. This knowledge will ...

When light is scattered from a solution or a suspension, it undergoes random changes in intensity. This phenomenon helps us to determine the size of the particles that scatter the light. This is the ...

Several years ago, scientists discovered that a single microscopic particle could rock back and forth on its own under a ...

Scientists demonstrate a fluid that couples electric and magnetic order at room temperature, introducing a soft multiferroic platform for reconfigurable sensing, actuation, and field-controlled ...

Tokyo, Japan - Glass is such a common, everyday material that you probably don't think about it much. It may surprise you to learn that researchers today still don't understand how glass forms.

A novel study demonstrates that droplets at a microscale level can be precisely controlled, opening new avenues in micro-scale systems The precise control of tiny droplets on surfaces is essential for ...