The world of atoms and molecules is tricky to study, not just because it’s so small but because events occur so quickly at that scale. Now, researchers at the University of Tokyo have captured slow ...

Publication: Understanding water behaviour on 2D material interfaces through single-molecule motion on h-BN and graphene.

Scientists have captured fascinating slow-motion video of single molecules in motion at 1,600 frames per second, according to a study. The team from the University of Tokyo (UT) say that the latest ...

For the molecule that eschews a sedentary lifestyle, there is Molecules in Motion, a website dedicated to molecules on the go! Well, okay, it really has to do with molecular animations and interactive ...

Cartilage cells generate more protein components (collagen II and aggrecan) for regeneration when treated with fast-moving dancing molecules (left) compared to slower moving molecules. In November ...

(Nanowerk News) From cells that migrate to tissues that heal, nature abounds with systems capable of sensing and adapting to their surroundings. Replicating this level of adaptability in synthetic ...

Water rolls on h-BN but encounters friction on graphene. Atomic structure and substrate shape nanoscale movement, guiding advances in coatings and anti-icing surfaces.

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 ...