Electron transfer, critical to processes such as cellular respiration and energy harvesting in plants, has long posed ...
As part of a high-resolution biosensing device without wires, the antennas could help researchers decode intricate electrical ...
Researchers developed AI frameworks to identify evidence-driven hypotheses that could advance biologically inspired materials ...
Scientists have successfully achieved a quantum collective behavior of macroscopic mechanical oscillators, unlocking new ...
With a processing speed a billion times faster than nature, chip-based laser neuron could help advance AI tasks such as ...
Opening new doors for the development of nanotechnologies in medicine and other fields, scientists recreate and compare two ...
Researchers have forced light to travel in very different and unusual ways. Using nifty engineered chip-nanostructures, they ...
To solve this, the researchers employed a Machine Learning algorithm together with a special method to estimate each ...
A new way of thinking about how swirling magnetic textures and mobile electrons interact could lead to compact, efficient and ...
The technique provides researchers with a powerful tool for controlling magnetism, and could help in designing faster, ...
An electronic stacking technique could exponentially increase the number of transistors on chips, enabling more efficient AI ...
(Nanowerk Spotlight) Nature has perfected what human engineering still struggles to achieve: creating materials that can ...