Solid-state proton conductors (SSPCs), which are a key component for the safety and
efficiency of fuel cells, have received much attention due to their broad application in …

Creating functional electrical circuits using individual or ensemble molecules, often termed
as “molecular-scale electronics”, not only meets the increasing technical demands of the …

The use of single molecules in electronics represents the next limit of miniaturisation of
electronic devices, which would enable us to continue the trend of aggressive downscaling …

The development of miniaturized electronics has led to the design and construction of
powerful experimental platforms capable of measuring electronic properties to the level of …

Molecular electronic devices with tunable conductance states show great potential in
building memories and logic components for next-generation circuits. In recent years …

Metal–organic materials are found to be a fascinating novel class of functional
nanomaterials. The limitless combinations between inorganic and organic building blocks …

Although proteins are considered as nonconductors that transfer electrons only up to 1 to 2
nanometers via tunneling, Geobacter sulfurreducens transports respiratory electrons over …

This critical review summarizes the research progress made in the field of π-conjugated
terpyridines within the last decade. Supramolecular materials based on metal ion complexes …

Molecular wires show promise in nanoscale electronics, but the synthesis of uniform, long
conductive molecules is a significant challenge. Deoxyribonucleic acid (DNA) of precise …

We describe here the fabrication of large-area molecular junctions with a configuration of
ITO/[Ru (Phen) 3]/Al to understand temperature-and thickness-dependent charge transport …