Molecular electronics is a branch of nanotechnology that focuses on using individual molecules or nanoscale molecular structures as electronic components to create miniaturized circuits and devices.

Researchers led by Prof. Cunlan Guo at Wuhan University have pioneered a new approach to control the electrical properties of ...

Researchers have unveiled a highly sensitive detector capable of identifying molecules by analyzing their infrared ...

Researchers have developed a highly sensitive detector for identifying molecules via their infrared vibrational "fingerprint.

A groundbreaking study on van der Waals (vdW) epitaxy has introduced new possibilities in the production of wafer-scale, ...

Biological-based electronics. Developing circuits that are "grown" may seem farfetched, but research shows that a "biocomputer" might be possible in 25 years. From living plants, researchers have ...

The field of molecular electronics has developed significantly as experimental techniques to study charge transport through single molecules have become more reliable. Three Articles in this issue ...

These switches are typically individual molecules or molecular assemblies that exhibit distinct properties in each state, allowing them to function as binary logic elements, similar to electronic ...

Using lasers and the bacteriorhodopsin protein molecule, the W. M. Keck Center for Molecular Electronics has built a molecular memory device holding several hundred megabytes. The advantage of ...