Graphene oxide helps turn PET plastic waste into synthetic graphite for lithium-ion battery anodes, offering a recycling ...

Atomic defects can tune carbon quantum dots across UV to near-infrared light, guiding cleaner design of sensors, bioimaging ...

Surface-bound molecules reached the Fourier quantum limit, enabling cleaner studies of emitters for quantum tech and ...

A soft magnetic metasurface can morph into thousands of shapes, sense deformation, and show LED feedback, pointing to tactile interfaces, wearables, soft robotics, and AR/VR.

All-glass atomic vapor cells could enable smaller, cheaper, more stable sensors for navigation, radar and wireless signals ...

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

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 ...

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 ...

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