Aromatic molecules adsorb onto carbon nanotube walls via pi-pi interactions, slowing supercritical water flow and reducing gasification efficiency, a new simulation study finds.

No, the kid doesn’t stay in the picture, if AI has anything to do with it. Removing people and objects from images and video is a popular sub-strand of research in VFX-centric AI literature, with a ...

A research team reveals that the structure of organic molecules, particularly aromatic hydrocarbons, plays a decisive role in regulating how ...

TIER IV, the pioneering force behind open-source software for autonomous driving, has developed software stacks for Level 4 autonomous drivin ...

Spacecraft reentry environments lead to high magnetic Reynolds numbers, resulting in complex dynamics for magnetic flow ...

Water from a prehistoric plant, the horsetail, contains an astonishing chemical signature that’s never been seen before on Earth.

Predictive modeling and atomic-scale control are reducing development time for advanced materials, also increasing precision, functionality, and efficiency.

Researchers studying a rare genetic condition tied to high psychosis risk have found that the brain’s waste-clearing plumbing ...

A specialized network responsible for washing away cellular waste in the brain might play a role in the development of ...

Understand why the physics behind your flow calibrator—primary versus secondary standards—dictates the legal and medical integrity of your worker exposure results.

Martial arts robots may play well on stage, but can they get work done? A look at what it takes to deliver the reliability and safety required for autonomous robotic systems ...