Physicists have spent more than a century measuring and making sense of the strange ways that photons, electrons, and other ...

Resembling the interlocking links in chainmail, novel nanoscale material is incredibly strong and flexible. The interlocked material contains 100 trillion mechanical bonds per 1 square centimeter -- ...

Imagine a future where your phone, computer or even a tiny wearable device can think and learn like the human brain -- processing information faster, smarter and using less energy. A breakthrough ...

Northwestern University researchers have achieved a groundbreaking development in materials science with the creation of a ...

近日，厦门大学田华雨教授、方华攀副教授等人在Nanoscale上以“Recent Advances in Poly(amino acids), Polypeptides, and Their Derivatives in Drug Delivery”为题在线发表 ...

C by controlling its nanoscale structure, enabling flexible electronics and sensors for extreme cold environments.

The elegant simplicity of folding paper has inspired researchers to explore the possibility of replicating this flexibility ...

The findings, published in Advanced Optical Materials, represent a major step forward in the development of on-chip photonic ...

In quantum entanglement, pairs of photons become connected so that if the state of one photon changes, the other changes ...

In a major breakthrough, a team of scientists from the Indian Institute of Science (IISc) in Bengaluru, has developed a way ...

Future electronics could be made more powerful and more energy efficient by employing niobium phosphide in chips.

According to a study published in the journal Nature, these nanosensors utilise the photon-avalanching effect to achieve their remarkable capabilities. This process, involving rare-earth ions like ...