At temperatures above absolute zero, molecules in any substance move constantly in a random manner. Now, researchers have developed a way to capture the energy from this motion of liquid molecules and ...

A miniature generator can convert the movements of molecules in room temperature liquid into electricity. The device could one day be used to power devices like medical implants or even small ...

A team of energy researchers has discovered that molecular motion can be predicted with high accuracy when confining molecules in small nanocages. Their theoretical method is suitable for screening ...

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 ...

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 ...

Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, Vol. 237, No. 1210 (Nov. 6, 1956), pp. 383-394 (12 pages) The coupling between electronic and nuclear motion ...

The motion of neutral molecules in a beam can be manipulated with inhomogeneous electric and magnetic fields. Static fields can be used to deflect or focus molecules, whereas time-varying fields can ...

An investigation, recently published in Nature, and carried out by scientists at Stockholm University has shown that liquid water is much more complex than meets the eye. With the use of the x-ray ...

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 ...