Today on the 'Name That Thing' quiz, we will test how much you know about geometric shapes. Here are four types of regular polygons in the image below. Can you tell what these are called in ...

No "sticky ends"? No problem. A new study by NYU chemists finds that DNA tiles can assemble into 3D structures without the ...

MXene nanoscrolls transform flat 2D materials into conductive 1D structures, unlocking advances in energy storage, sensing, ...

In a study published in IEEE Transactions on Circuits and Systems for Video Technology, a research team led by Prof. SONG Zhan from the Shenzhen Institute of Advanced Technology of the Chinese Academy ...

Advances in machine learning and shape-memory polymers are enabling engineers to design for mechanical performance first and ...

Twisting atomically thin magnetic layers does more than reshape their electronics—it can create giant, topological magnetic textures. In chromium triiodide, researchers observed skyrmion-like patterns ...

In chemistry, molecules with a "flat" geometry are often stable enough to support a wide range of reactions. But in the quantum world, that's not technically true.

One of those tools is 3D scanning. Using portable scanners, it is now possible to capture the full surface geometry of an object with high precision, without touching or damaging it. Every curve, ...

Little Foot’s face looks like it has been through a slow-motion car crash, because it has. For millions of years, rock ...

A subtle twist between atomically thin magnetic layers can generate unexpectedly large and complex spin structures.

An electronic nose modeled on insect antennae simultaneously identifies gas mixtures and pinpoints their three-dimensional origin by decoding the natural dynamics of odor plumes.