Neurons placed inside engineered living bodies built from frog cells self-organize, become active, and reshape movement ...

An AI-powered toolkit automatically extracts and quantifies microstructural features from microscopy images, accelerating ...

Lab architecture used to test 2D semiconductors artificially boosts performance metrics, making it harder to assess whether these materials can truly replace silicon.

Erasable electric fields written by laser light onto crystal surfaces can trap, align, and release living cells without ...

If utilized on the lunar surface, the material may help build sturdy, nontoxic habitats and tools for future astronauts, capabilities that would be vital to the NASA Artemis missions that aim to ...

Researchers demonstrate that femtosecond laser-induced transient Pauli blocking can achieve ultrafast, broadband optical ...

Hollow graphene aerogel fibers mimicking polar bear hair achieve record-low thermal conductivity and high electrical ...

A new crystal-seeding method boosts the efficiency and scalability of perovskite solar cells, advancing this promising ...

“The electrocytes in electric eels are ultra-thin biological cells, capable of generating over 600 volts of electricity in a ...

In a new study, researchers examined what happens when nanoplastics interact with Salmonella, potentially affecting food safety and human health.

Chemical engineers have found a way to fabricate film-thin membranes imbued with super strength that could extend the durability of decarbonisation technologies.

Researchers have shown that hard-to-spot defects in a widely used two-dimensional insulator can trap electrical charges and locally weaken the material, making it more likely to fail at lower voltages ...