Physicists studied crystals made of rotating objects that fragment easily, show unusual defects, and follow a new theory predicting their unique behavior.

While nanopore technologies have revolutionized DNA and RNA analysis, their application to proteins has been limited due to ...

Researchers synthesized a graphene mesosponge to pinpoint the cause of battery failure, so that we can fix the root cause of ...

Mathematical framework translates microscopic movements into large-scale behaviors, like proteins unfolding and crystals ...

A multilayer graphene-based tape conducts heat quickly while insulating electricity, offering a thin and flexible solution ...

Scientists created shapeshifting DNA robots that react to acidity, opening paths to smart drug delivery, pollution cleanup, ...

Researchers built a chip-sized processor and 3D-printed copper antenna arrays that could enable flexible, wearable wireless ...

A new membrane system turns the natural mix of seawater and freshwater into enough electricity to produce hydrogen, showing how simple salt differences could power clean fuel generation.

With THz spectroscopy scaled down to chip-sized, researchers identified a potential new way to control quantum materials.

An mRNA cancer vaccine carries its own immune booster and lights up when it starts working, showing treatment success in mice ...

New technique could overcome restrictions on size and functionality and prevent necrotic regions of dead cells.

A conductive hydrogel transforms its random internal structure into a secure, unclonable signature, addressing the challenge ...