In a twist on conventional wisdom, researchers have discovered that in ocean-like fluids with changing density, tiny porous particles can sink faster than larger ones, thanks to how they absorb salt.

A large-scale fluid simulation tracking 100,000 particles as they settle through turbulent water has identified a previously ...

Liquid chromatography is a pivotal analytical method in which mixtures are separated as they pass through a column containing a stationary phase. The evolution of porous particle technology—including ...

New research uncovers surprising insights into how particles sink in stratified fluids like oceans, where the density of the fluid changes with depth. In a study published in Proceedings of the ...

The deep ocean can often look like a real-life snow globe. As organic particles from plant and animal matter on the surface sink downward, they combine with dust and other material to create "marine ...