New USC research offers an unseen insight into how the brain shifts gears. The researchers discovered that our innate ability to make quick changes in motor function are the result of a unique brain ...

The hydrogen atoms of [4Fe-4S] type ferredoxin, one of the electron carriers, have been visualized and both experiments and calculations have revealed the mechanisms that control the redox potential.

Opening new doors for the development of nanotechnologies in medicine and other fields, scientists recreate and compare two natural mechanisms to better program the timescale of molecular ...

Topological materials promise electronics that are faster, cooler, and far more robust, but until now they have mostly behaved like fixed, exotic curiosities rather than tunable components. That ...

Figure 1 (a) Sketch map of the symmetric (black line) and asymmetric (red line) energy barriers for switching Néel vector n . A collaborated research team led by The Hong Kong University of Science ...

Molecular switches are nanoscale devices that can reversibly change their state or conformation in response to external stimuli. These switches are typically individual molecules or molecular ...

A new technical paper titled “Resistive Switching and Current Conduction Mechanisms in Hexagonal Boron Nitride Threshold Memristors with Nickel Electrodes” was published by researchers at RWTH Aachen ...