In one-dimensional conductors, interactions result in correlated electronic systems. At low energy, a hallmark signature of the so-called Tomonaga–Luttinger liquids is the universal conductance curve ...

Studies of the electrical conductance of single molecules attached to metallic electrodes not only probe the fundamentals of quantum transport but also provide the knowledge needed to develop future ...

(Nanowerk Spotlight) Molecular electronics aims to use small organic molecules as the active component in an electrical circuit in order to tailor functionality and achieve new levels of ...

(Nanowerk News) Scientists at Tokyo Institute of Technology have developed a statistical method that obtains detailed descriptions of metal-molecule interfaces in single molecule junctions and ...

Researchers at the School of Engineering and Applied Sciences have employed a new material to mimic the low-power, high-performance functioning of the human brain in simple circuits. By exploiting the ...

A new ability to measure how a minuscule amount of heat moves through a single molecule could help researchers design better materials for ultrasmall computer circuits or nanoscale thermoelectric ...

Neuromorphic breakthrough: Nathan Ronceray (left) and Théo Emmerich at EPFL with their nanofluidic devices. (Courtesy: EPFL/Titouan Veuillet/CC BY SA 4.0) A memristor that uses changes in ion ...

A new type of molecular wire – formed from repeat units of silicon and oxygen – has been found to demonstrate the greatest resistance ever recorded, making them ideal insulators for molecular circuits ...