Scientists have developed a self-training method that strengthens lab-grown muscle tissues around the clock, and used them to power a living-muscle robot that swims faster than any of its predecessors ...

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

Researchers have developed a breakthrough way to observe what is happening inside electronic chips while they are operating - ...

A 3D-printed hydrogel wound dressing loaded with MXene and carbonized polymer dots kills drug-resistant MRSA and speeds healing in diabetic mice.

Kimchi-derived lactic acid bacteria may bind environmental micropollutants, suggesting a possible biological mechanism that could help reduce nanoplastic buildup in the gut.

A new method strengthens perovskite solar cells by stabilizing grains and interfaces, enabling reliable performance under extreme temperature swings in orbit and harsh environments like space.

Gravitational waves from violent cosmic events distort spacetime. A new study proposes detecting them by observing how they ...

Researchers use supercomputers and artificial intelligence to predict how carbon transforms under extreme heat and pressure, paving the way for revolutionary materials.

EU project develops 3D-printed graphene foams from renewable materials as sustainable damping and lightweight solutions for ...

Scientists trained a neural network that can use ion momentum to work backward and predict the pre-blast geometry of a molecule.

Scientists developed high-performance, lead-free piezoelectric thin films on standard silicon wafers, advancing eco-friendly energy harvesters compatible with semiconductor manufacturing.

A flat, flexible wearable thermoelectric generator converts body heat into electricity by redirecting thermal flow through a dual conductivity substrate.