Using a deep ultraviolet laser, the team demonstrated how precisely delivered pulses of light can trigger localised chemical reactions on a diamond surface. The reaction, driven by a two-photon ...

Channel sampling at Axel REE’s flagship Caladão Project within the highly prospective ‘Lithium Valley’ in Brazil’s Minas ...

Rocks play a vital yet often unrecognized role in the carbon cycle. Through a natural process that has helped regulate ...

“Our laser method provides atomic-level control over diamond surfaces in a standard air environment,” commented lead ...

Researchers at Cornell University have built the world’s smallest walking robot, at just two to five microns across: so small ...

Cornell develops the tiniest walking robot, enabling precise imaging and force measurement at the scale of microscopic ...

Imagine being able to adjust the surface of a material with atomic-scale precision using just a laser. What sounds like science fiction has now become reality, thanks to groundbreaking research ...

Inspired by the diverse attachment organs of parasites, researchers have designed a millimeter-scale mechanism for soft tissue anchoring. Robert J ...

The goal of this study is to use computational modelling, optogenetics and other techniques to understand neural circuits within the raphe brain region in rodents performing emotional learning.

Transmission electron microscopy is a powerful imaging technique used to study the structure and properties of materials at ...