Häftklammerformade partiklar skapar starka material som kan återgå till ursprungligt skick

Researchers have found that packed rice grains weaken under rapid compression but remain stronger under slow pressure. This unusual property has been used to create a metamaterial that automatically adjusts its behavior based on the speed of applied forces.

13 maj 2026 Rapporterad av AI

Researchers at the University of South Florida have identified the mechanism that makes carbon black particles strengthen rubber, resolving a scientific puzzle that has lasted nearly a century. Their computer simulations reveal how the material resists stretching by effectively fighting against itself.

Researchers have produced an exotic molecule that looks like a butterfly, with electron wings, by combining giant and normal-sized rubidium atoms. The achievement completes a two-decade search for a family of such giant molecules and may enable further advances in quantum science.

18 april 2026 Rapporterad av AI Faktagranskad

Northwestern University researchers report they have printed flexible “artificial neurons” that generate realistic electrical spike patterns and can trigger responses in living mouse brain tissue. The team says the work, published April 15 in Nature Nanotechnology, could help advance brain-machine interfaces and more energy-efficient, brain-inspired computing.