Liquid metal controlled by low voltage reversibly switches color and infrared response in nanoscale surfaces, enabling low power reflective displays, sensors, and optical security features.

A new nano-based drug delivery technology could outwit tuberculosis (TB) - one of humanity's most ancient diseases.

Researchers show nanoscale memristors can calibrate electrical resistance without complex labs or extreme conditions, opening metrological uses in electronics.

Study finds dark matter may follow the same laws as ordinary matter on cosmic scales, though unknown forces could still be at play in this abundant, unseen substance.

Magnetic graphene oxide sheets fold, move, sense motion, and switch function by swapping magnetic layers, offering a fast, reprogrammable platform for soft robots and other morphable structures.

Cement infused with carbon and hydrogel can store electrical energy while remaining strong enough for construction, suggesting a future where buildings contribute directly to energy storage.

A sunlight-powered reactor turns ordinary sewage into hydrogen fuel while cleaning the water, showing how simple materials ...

An artificial intelligence model predicts how brain immune cells react to RNA and DNA nanoparticles, helping scientists design safer and more effective nucleic acid therapies faster.

When a metal-organic framework melts into glass, it becomes magnetic at room temperature, showing that atomic disorder can ...

Magnetic microrobots carry medicine through blood and release it only where needed, while being tracked inside the body using ...

Liquid metal embedded with dormant bacterial spores forms a living conductor that heals itself, resists oxidation, and boosts ...

A new roadmap links materials, design, and process to build stretchable synaptic transistors for soft, low-power AI and ...