In a recent study that merges supramolecular chemistry and molecular electronics, a research team has demonstrated how supramolecular porphyrin-based cages can enable tunable photoresponsive charge ...

Conventional spontaneous Raman spectroscopy of interfacial molecules typically requires plasmonic or electronic enhancement, ...

As electronic devices continue to get smaller and smaller, physical size limitations are beginning to disrupt the trend of doubling transistor density on silicon-based microchips approximately every ...

As silicon-based electronics approach fundamental limits, researchers are turning to molecules as the smallest possible functional devices. Molecular electronics replaces conventional transistors with ...

Molecular and organic electronics encompasses the study and application of devices in which organic molecules and polymers not only serve as the functional material but also actively conduct, emit, ...

A team at KAIST has developed a DNA-based bio-transistor capable of both computation and memory. The study, published in ...

Researchers have developed a new theoretical modelling technique that could potentially be used in the development of switches or amplifiers in molecular electronics. Researchers have developed a new ...

Researchers from the Universities of Birmingham and Warwick, alongside the University of Vienna, have ...

University of Illinois Urbana-Champaign researchers report a unique strategy for controlling molecular conductance by using molecules with rigid backbones – such as ladder-type molecules, known as ...

The miniaturization of electronic devices that use silicon-based technology will soon reach a limit and if devices are to continue getting smaller, scientists must harness the electronic properties of ...