Graphene coated with magnetic molecules shows gate-tunable, long-range magnetism while preserving mobility, pointing to ...

Researchers use extreme pressure and bright X-rays to track how nanodiamonds form, opening ways to tune ultra-hard materials ...

A new protein-design workflow turns inactive artificial scaffolds into efficient enzymes, opening paths to greener chemistry and biotech.

From healthcare to climate forecasting, digital twins are expanding rapidly, with uncertainty, interoperability, and user needs emerging as key priorities.

Sub-1 nm chip tech stacks transistors vertically, letting more compute fit in less space while improving speed and efficiency ...

Researchers design a ZIF-8-based platform that synchronizes the release of antibacterial and antioxidant agents, offering a ...

AI-designed microneedles bend at body temperature to close diabetic wounds while delivering DNA therapy and antibacterial ...

A software workflow automates X-ray analysis to spot crystal defects in diamond and advanced semiconductors, helping improve ...

Researchers demonstrate a giant insulator-to-metal transition and room-temperature superparamagnetism by controlling defect ...

For the first time, researchers imaged a molecule undergoing a coherently controlled chemical reaction - a reaction steered ...

AI-guided modeling identifies key traits that improve hydrogen uptake, helping narrow the search for materials that store ...

Water in nanoscale spaces is shaped more by pressure and surrounding materials than confinement, offering new ways to improve ...