Single-molecule junctions—devices in which a single molecule is electrically connected by
two electrodes—enable the study of a broad range of quantum-transport phenomena even …

The ability to measure the behavior of a single molecule during a reaction implies the
detection of inherent dynamic and static disordered states, which may not be represented …

As the scaling down of integrated circuits continues, there is a growing interest in electrically
conductive materials with high current-carrying capacity for next-generation on-chip …

Graphene nanoribbon (GNR) devices are being extensively investigated as possible
candidates for replacing silicon-channel devices in the next-generation integrated circuits …

Many spintronic devices rely on the presence of spin-polarized currents at zero magnetic
field. This is often obtained by spin exchange-bias, where an element with long-range …

Developments in advanced manufacturing have promoted the miniaturization of
semiconductor electronic devices to a near-atomic scale, which continuously follows the'top …

Since the early days of quantum mechanics, it has been known that electrons behave
simultaneously as particles and waves, and now quantum electronic devices can harness …

The ability to detect and distinguish quantum interference signatures is important for both
fundamental research and for the realization of devices such as electron resonators …

We report transport measurements on a graphene–fullerene single-molecule transistor. The
device architecture where a functionalized C60 binds to graphene nanoelectrodes results in …

Abstract 2D materials have unique structural and electronic properties with potential for
transformative device applications. However, such devices are usually bespoke structures …