slimy buildup on almost any kind of surface. Biofilms can corrode the hulls of ships, produce green slime on rocks, pollute drinking water systems, form plaque on teeth and stick to medical ...

The team of scientists created a similar condition to the water running through pipes to study how water reacts to stagnancy.

Water channels crisscross biofilms and allow for the exchange of ... biofilm can leave the fold and establish themselves on a new surface. Either a clump of cells breaks away, or individual ...

The UV waves can also be disrupted by how murky the surrounding water. Uneven distribution of the UV light gives biofilm-forming microorganisms a foothold and leaves the whole surface vulnerable ...

"It’s well known that concrete and other materials degrade over time, both inside and outside of tunnels. Maintenance and ...

Understanding how biofilms ... of water. It's a shape that shows up often in physics, and that sparked the team's interest. "A spherical cap in physics is very interesting, because it is a surface ...

Scientists don’t know the full extent of the impact of nanoplastics on our health, but new research from the University of ...

Biofilm growth has been observed in Soviet/Russian (Salyuts and Mir), American (Skylab), and International (ISS) Space Stations, sometimes jeopardizing key equipment like spacesuits, water recycling .

slimy buildup on almost any kind of surface. Biofilms can corrode the hulls of ships, produce green slime on rocks, pollute drinking water systems, form plaque on teeth and stick to medical devices ...