Plasmonic nanomachines use light-generated gradients to create local force, offering a design framework for controlled motion at micro- and nanoscale dimensions.

Scientists can now build and combine large DNA pieces, letting microbes like yeast and bacteria become efficient cell ...

An origami scaffold uses electrical repair cues and light-triggered heating to promote cartilage formation while limiting ...

Physicists created highly conductive zones at twisted lithium niobate interfaces, extending twisted interface research beyond ...

The secret behind insects' lightning fast reactions could offer a blueprint for more energy efficient robots and self-driving ...

Researchers developed a cellulose aerogel with metal-organic frameworks that absorbs microwaves, resists fire, insulates heat ...

Theorists address an experimental paradox by developing a general theory uniting a kind of order known as electronic ...

Researchers developed a photocatalytic covalent organic framework that selectively captures gold from electronic waste ...

AI and supercomputers show early promise in speeding solar panel recycling by identifying solvents that separate silicon with ...

New analytical work shows how true energy gaps can arise in quasicrystals, answering a longstanding open question about these extraordinary materials.?

Heavy water's stronger hydrogen-bond network lowers ion desolvation energy in a zinc-copper Daniell cell, enabling uniform ...

The approach uses a reprogrammed virus that evolves 160,000 times faster than the host, effectively training bacteria to ...